KR101221072B1 - Opening and closing roof system for all-weather construction in main control room block of nuclear power plant - Google Patents

Abstract

The present invention relates to a retractable roof system capable of all-weather construction in a main control room section of a nuclear power plant, in particular vertically installed in the main control room section of the nuclear power plant, and a post truss to form a rectangular shape; A guide rail installed in a longitudinal direction from an upper portion of the post truss; It is characterized in that it comprises a retractable roof which is installed on the top of the guide rail so as to face each other is moved along the guide rail.
According to the present invention as described above to install a roof which is moved by a motor along the guide rail and opened and closed in bellows shape on the upper part of the structure constituting the main control room during the construction of the nuclear power plant, the main truss is formed in segments, and the hydraulic part is installed By raising the roof according to the height of the structure it is possible to shorten the air by working even during rainfall.

Description

OPENING AND CLOSING ROOF SYSTEM FOR ALL-WEATHER CONSTRUCTION IN MAIN CONTROL ROOM BLOCK OF NUCLEAR POWER PLANT}

The present invention relates to a retractable roof system, and in particular, a guide rail is installed on a pillar of a building, a roof moved by a motor along a guide rail and opened and closed in a bellows shape, and a main truss is formed in segments. And, it relates to a retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant to install a hydraulic section to raise the roof according to the height of the structure.

Globally, energy-related issues are always an important issue. Developing countries, including China, and all industrial countries are constantly working to resolve them. In particular, we are conducting research and development to replace existing thermal power plants to reduce carbon emissions, which are considered as the main culprit of global warming. Among them, potential alternative energy sources are nuclear, wind, solar / solar, geothermal, tidal, and hydrogen Energy, etc. However, in terms of economics and practicality, nuclear energy development is at the forefront, and each country is accelerating the construction of nuclear power plants.

The countries that are promoting the construction of nuclear power plants in the world are as follows. China plans to build 32 units by 2020 and 150 units by 2050, while the United States plans to build 10 units by 2020. In addition to the 20 nuclear power plants currently in operation in Korea, Shingori Units 3 and 4, Shinwolseong Units 1 and 2, and Shin-Uljin Units 1 and 2 are under construction, while Shingori Units 5 and 6 are under construction. In particular, there will be a globally unprecedented nuclear power plant town where Units 1 and 2, including the existing Unit 4, will be built. The International Atomic Energy Agency (IAEA) expects about 300 new nuclear power plants within the next 25 years.

I can say that the nuclear renaissance is coming. In the United States, which has the largest number of nuclear power plants in the world, no nuclear power plants have been built in recent decades, while South Korea has continued to build nuclear power plants. Moreover, in the case of Korea, various nuclear power plants of the US, France, and Canada (CANDU) systems are being constructed and operated.

Nuclear power plants in Korea started with Kori Nuclear Power Plant in the early stages, and many technologies have been accumulated due to various construction and operation experiences of various types of nuclear power plants. Recently, these technologies have been recognized globally, and the Korean nuclear power plant has entered the UAE. It became.

Nuclear power plant structures are divided into a reactor containment building (RCB) and a main control room (MCR).

However, the recently ordered nuclear structure is being ordered by the tight air, there is a problem that the number of rainy days, the increase in the number of rainy days is a major cause of air delay as the climate of Korea is converted to subtropical climate.

The present invention is to solve the above problems, the installation of a roof which is moved by a motor along the guide rail and opened and closed in bellows shape on the upper part of the structure forming the main control room during the construction of the nuclear power plant, the main truss by segment To provide a retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant, which is formed and installs a hydraulic part to raise the roof according to the height of the structure to enable work even during rainfall. There is this.

According to an aspect of the present invention,

A post truss vertically installed in a main control room section of the nuclear power plant and forming a rectangular shape; A guide rail installed in a longitudinal direction from an upper portion of the post truss; It is characterized in that it comprises a retractable roof which is installed on the top of the guide rail so as to face each other is moved along the guide rail.

The post truss may include a first segment truss having a hydraulic cylinder installed at a lower edge side thereof; An N-segment truss positioned at a lower end of the first segment truss and having a first support plate formed at an upper side thereof to support the hydraulic cylinder; And an assembly segment truss installed between the first segment truss and the Nth segment truss during lifting of the retractable roof, and having a second support plate formed at an upper side thereof to support the hydraulic cylinder.

Here, the retractable roof has a triangular shape and is divided into a plurality of main frames, one end of which is fixed on the guide rail; A bellows frame connecting the main frame and the main frame; A film formed on top of the main frame; A wheel installed at a lower end of each main frame and moving along the guide rail; And a moving motor connected to the other end of the main frame by a chain and installed on the guide rail to move the main frame from side to side.

Here again, the retractable roof is folded on the guide rail during typhoon and then each corner is bound to the building structure by a wire.

According to the retractable roof system capable of all-weather construction in the main control room section of the present invention nuclear power plant configured as described above, when the nuclear power plant construction is moved by a motor along the guide rail on the upper part of the structure forming the main control room, opening and closing in bellows shape It is possible to shorten the air by installing a roof, forming a main truss in segments, and installing a hydraulic part to raise the roof according to the height of the structure to enable work even during rainfall.

1 is a perspective view schematically showing the configuration of a retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention.
Figure 2 is a side view schematically showing the configuration of a retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention.
3A and 3B are explanatory diagrams showing a roof lifting process of a retractable roof system capable of all-weather construction in a main control room section of a nuclear power plant according to the present invention.
Figure 4 is a plan view showing a fixed state of the retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention.
5 is a side view of Fig.

Hereinafter, the configuration of a retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

1 is a perspective view schematically showing the configuration of a retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention, Figure 2 is possible all-weather construction in the main control room section of the nuclear power plant according to the present invention Figure 3a and 3b is a schematic side view showing the configuration of the retractable roof system, Figure 3 is an explanatory view showing the roof lifting process of the retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention, Figure 4 5 is a plan view showing a fixed state of the retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention, and FIG. 5 is a side view of FIG.

1 to 5, the retractable roof system (1) capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention, the post truss 10, the guide rail 20, and the retractable roof ( 30).

First, the post truss 10 is installed vertically without interference with the structures in the main control room section of the nuclear power plant, and forms a rectangular shape. At this time, the post truss 10 is installed in four, six, eight, etc. according to the size of the roof. Here, the post truss 10 is installed on the lower end of the first segment truss 11 and the first segment truss 11, the hydraulic cylinder (11a) is installed on both sides, so that the hydraulic cylinder (11a) is supported, respectively. Between the N-segment truss 13 and the N-segment truss 13 when the first supporting plate 13a is formed on both sides of the upper end, and the double-segmented truss 11 of the retractable roof 30 to be described below. The assembly segment truss 15 is provided, and the second supporting plate 15a is formed on both sides of the upper end so that the hydraulic cylinder 11a is supported. At this time, the second support plate 15a of the assembly segment truss 15 may be disassembled and assembled to prevent interference. Here, a supporter beam may be installed between the post truss 10 and the post truss 10 to provide flow and rigidity. Here, two hydraulic cylinders (11a) may be provided in the central portion on both sides, four may be installed on both sides spaced apart from each other, which is selected according to the lifting weight.

And the guide rail 20 is installed in the longitudinal direction from the top of the post truss (10). In this case, the guide rail 20 may be supported by a supporter beam perpendicular to the ground.

In addition, the retractable roof 30 is comprised from the main frame 31, the bellows frame 33, the film | membrane 35, the wheel 37, and the moving motor 39. As shown in FIG.

The main frame 31 has a triangular shape and is divided into a plurality of pieces, and one end is fixed on the guide rail 20.

The bellows frame 33 connects the main frame 31 and the main frame 31 to each other by being folded in an X shape with respect to the central axis.

The membrane 35 is fixed to the upper part of the main frame 31 by a material transmitting light.

The wheels 37 are installed on the bottom of each main frame 31 and move along the guide rails 20.

The moving motor 39 is connected to the other end of the main frame 31 by a chain 39a, and is installed on the guide rail 20 to move the main frame 31 to the left and right.

On the other hand, the retractable roof 30 is folded on the guide rail 20 as shown in Figures 4 and 5 during a strong wind or typhoon, each edge is bound to the building structure by the wire 40.

Hereinafter, the installation process and operation of the retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant according to the present invention will be described in detail with reference to the accompanying drawings.

First, the N-segment truss 13 is installed vertically without interference with the structures in the main control room section of the nuclear power plant. At this time, the bottom surface is bonded by concrete or anchored concrete and other laid.

In this state, the N-segment truss 13 is assembled to the installation height, and the first segment truss 11 is assembled at the top.

When the assembly of the first segment truss 11 is completed, the guide rail 20 is welded or bolted to the upper portion of the first segment truss 11 in the longitudinal direction.

When the assembly of the guide rail 20 is completed, a pair of retractable roofs 30 are installed on the guide rail 20. At this time, three or more may be installed depending on the length of the roof. In addition, both ends of the retractable roof 30 are fixed to the guide rail 20.

In this state, when the moving motor 39 is rotated forward, the main frame 31 located at the other end of the retractable roof 30 is moved on the guide rail 20, so that the remaining main frame is moved accordingly, and the bellows frame ( 33) is unfolded and the membrane 35 is unfolded.

On the contrary, when the moving motor 39 is reversely rotated, the main frame 31 positioned at the other end of the retractable roof 30 is moved on the guide rails 20 so that the remaining main frame is pushed and the bellows frame 33 is narrow. As the film 35 is folded.

On the other hand, the retractable roof 30 is folded on the guide rail 20 as shown in Figures 4 and 5 during a strong wind or typhoon, each edge is bound to the building structure by the wire 40.

In addition, the roof is raised according to the height of the structure, and as shown in FIG. 3A, the first segment truss 11 of each post truss 10 is disconnected from the N-segment truss 13 installed at the bottom thereof. In one state, the hydraulic cylinder 11a is raised. In this case, a separate temporary truss (not shown) may be installed to maintain a coupling force between the work space or the first segment truss 11 and the N th segment truss 13.

Then, the upper structure of the first segment truss 11, that is, the guide rail 20 and the retractable roof 30, are raised together.

In this state, the assembly segment truss 15 is assembled between the first segment truss 11 and the Nth segment truss 13 and then assembled.

Then, as shown in FIG. 3B, the hydraulic cylinder 11a is lowered, and the second supporting plate 15a is installed on the side of the assembled segment truss 15 to complete the lifting.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

10: post truss 20: guide rail
30: retractable roof

Claims (4)

A first segment truss installed vertically in the main control room section of the nuclear power plant, the hydraulic cylinder is installed on the lower edge side, and located at the bottom of the first segment truss, the first support plate on the upper side to support the hydraulic cylinder A post truss formed between the formed N-segment truss and an assembly segment truss, which is installed between the first segment truss and the N-segment truss, and a second support plate is formed on an upper side thereof to support the hydraulic cylinder;
A guide rail installed in a longitudinal direction from an upper portion of the post truss;
The main frame is installed in the upper portion of the guide rail to be opposed to each other in a triangular shape and is divided into a plurality of pieces, one end is fixed on the guide rail, and moved along the guide rail, the main frame and the main frame A bellows frame connecting the bellows frame, a film formed on an upper portion of the main frame, a wheel installed at a lower end of each main frame, and moved along the guide rail, the other end of the main frame and a chain connected thereto; A retractable roof system that can be installed in all weather in the main control room section of the nuclear power plant, characterized in that it comprises a retractable roof is installed on the rail consisting of a moving motor for moving the main frame left and right. delete delete The method of claim 1,
The retractable roof is,
Retractable roof system capable of all-weather construction in the main control room section of the nuclear power plant, characterized in that each edge is bound to the building structure by a wire after being folded on the guide rail during a typhoon.

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