KR101229095B1 - Inner roof system for reactor containment building of nuclear power plant - Google Patents

Abstract

The present invention relates to an internal roof system for a containment building section of a nuclear power plant, and more particularly, to an internal roof system installed in CLPs coupled in multiple stages to form a containment building of a nuclear power plant, at equal intervals on an inner surface of the CLP. Lugs installed; A water collecting tube having an upper surface formed in an open cylindrical shape, and having a plurality of cable loops installed at a position opposite to the lug on an outer surface thereof; A suspension cable having one end connected to the lug and the other end connected to the sump to support the sump; And a roof film coupled to the upper portion of the suspension cable.
According to the present invention as described above, one end of the suspension cable is installed at equal intervals at the upper and lower ends of the inner surface of the containment building CLP during the construction of the nuclear power plant, and connects the other end of each suspension cable to the center of the containment building CLP. After installing the submersible pump on the bottom surface of the sump, the roof membrane is installed on the upper surface of the suspension cable so that the air can be shortened in case of rainfall.

Description

INNER ROOF SYSTEM FOR REACTOR CONTAINMENT BUILDING OF NUCLEAR POWER PLANT}

The present invention relates to an internal roof system for a containment building section of a nuclear power plant. Specifically, one end of a suspension cable is installed at equal intervals at the upper and lower ends of the inner surface of the containment building CLP during the construction of a nuclear power plant, and the other end of each suspension cable is installed. The present invention relates to an internal roof system for a containment section of a nuclear power plant that connects a sump to a center of a containment CLP, and installs a water pump on a bottom of the sump, and installs a roof membrane on an upper surface of a suspension cable.

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 construction is an essential task to design and operate to ensure safety first. After the Chernobyl and TMI accidents, the importance of the reactor containment building (RCB), especially for nuclear reactors, is drawing more attention. The containment building of a nuclear power plant is the last bulwark to maintain pressure and prevent the release of radioactive material. In the construction of containment of nuclear power plants, not only safety but also economics must be considered. In particular, the most important purpose of the containment building in securing structural integrity and safety of nuclear power plants, which is the most important for nuclear power plant export and domestic construction, is to act as a last resort to prevent the leakage of radioactive materials.

In addition, the most important factors to be considered in the construction of containment of nuclear power plants are safety and economics. To achieve this goal, a CLP (Containment Liner Plate) method was developed and applied. This construction method has helped to shorten the construction period, reduce costs and ensure structural health. Based on this construction method, it contributed not only to domestic construction but also to nuclear power plant exports.

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 one end of the suspension cable at equal intervals in the upper and lower ends of the inner surface of the containment building CLP during the construction of the nuclear power plant, the other end of each of the suspension cable is housed in the center of the containment building CLP For the containment section of the nuclear power plant which connects the crystal to the location, installs a submersible pump on the bottom of the sump, and installs a roof membrane on the upper surface of the suspension cable so that the operation can be performed even in the rain, so that the air can be shortened. The purpose is to provide an internal roof system.

According to an aspect of the present invention,

An internal roof system installed in CLPs coupled in multiple stages to form a containment building of a nuclear power plant, comprising: lugs installed at equal intervals on an inner surface of the CLP; A water collecting tube having an upper surface formed in an open cylindrical shape, and having a plurality of cable loops installed at a position opposite to the lug on an outer surface thereof; A suspension cable having one end connected to the lug and the other end connected to the sump to support the sump; And a roof film coupled to the upper portion of the suspension cable.

Here, the lug is

The lug, the upper lug is installed on the upper end of the CLP; It consists of a lower lug installed on the lower end of the upper lug.

Here, the lug dismantles only the lower lug upon re-installation after lifting of the roof film to install the lower lug on top of the upper lug.

Here, the sump is provided with an underwater motor on an inner bottom thereof, and a drain pipe fixed to the side of the CLP is connected to the underwater motor.

Here, the suspension cable is fastened to the upper lug and the lower lug of the lug, respectively, and is formed to be inclined around the sump, so that the center of the roof film is inclined downward.

Here, the roof membrane is formed of an octagonal shape of a membrane material that transmits light, and a drainage hole for draining rainwater through the sump is formed at the center, and a material inlet is formed at one side to allow material input to the side. do.

According to the internal roof system for the containment building section of the nuclear power plant of the present invention configured as described above, one end of the suspension cable is installed at equal intervals in the upper and lower ends of the inner surface of the containment building CLP during the construction of the nuclear power plant, and the other end of each suspension cable The catchment is connected to the center of the containment building CLP, and the water pump is installed on the bottom of the catchment, and a roof membrane is installed on the upper surface of the suspension cable, so that the air can be shortened in case of rainfall.

1 is a side cross-sectional view showing the configuration of the internal roof system for the containment building section of the nuclear power plant according to the present invention.
Figure 2 is a perspective view showing the configuration of the internal roof system for the containment building section of the nuclear power plant according to the present invention.
Figure 3 is a perspective view showing the configuration of the sump of the inner roof system for the containment building section of the nuclear power plant according to the present invention.
4 to 7 are explanatory views showing the installation process of the internal roof system for the containment building section of the nuclear power plant according to the present invention.

Hereinafter, the configuration of the internal roof system for the containment building 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 side cross-sectional view showing the configuration of the internal roof system for the containment building section of the nuclear power plant according to the present invention, Figure 2 is a perspective view showing the configuration of the internal roof system for the containment building section of the nuclear power plant according to the present invention, 3 is a perspective view showing the configuration of a water collecting well of the internal roof system for the containment building section of the nuclear power plant according to the present invention.

1 to 3, the inner roof system 1 for the containment building section of the nuclear power plant according to the present invention includes a lug 10, a sump 20, a suspension cable 30, and a roof membrane. It consists of 40.

First, the lug 10 is composed of an upper lug 11 installed at the upper end of the CLP 50 and a lower lug 13 installed at the lower end of the upper lug 11. Here, the internal roof system 1 for the containment building section of the nuclear power plant according to the present invention is capable of lifting, by dismantling only the lower lug 13 of the lug 10 when lifting the lower lug 13 to the upper lug ( 11) Install on top.

And, as shown in Figure 3, the sump 20 is formed in a cylindrical shape with an upper surface open, and a plurality of cable hooks 21 are installed in a position opposite to the lug 10 on the outer surface. Here, the sump 20 is provided with an underwater motor 23 on the inner bottom, and the drain pipe 25 fixed to the side of the CLP 50 is connected to the underwater motor 23.

In addition, one end of the suspension cable 30 is connected to the upper lug 11 and the lower lug 13, and the other end thereof is connected to the cable hook 21 of the sump 20 to connect the sump 20. Provide support. Here, the suspension cable 30 is fastened to the upper lug 11 and the lower lug 13 to be inclined about the sump 20, so that the center of the roof film 40 to be described below is inclined downward. It is installed to achieve.

In addition, the roof membrane 40 is formed of an octagonal shape of a membrane material that transmits light, and a drainage hole 41 for draining rainwater to the sump 20 is formed at the center of the roof membrane 40. Combined, the material input port 43 is formed on one side to enable the material input to the side. In this case, the roof film 40 may be formed to have a size to cover all of the top of the CLP 50 according to the selection.

Hereinafter, the installation process of the internal roof system for the containment building section of the nuclear power plant according to the present invention will be described in detail with reference to the accompanying drawings.

4 to 7 are explanatory views showing the installation process of the internal roof system for the containment building section of the nuclear power plant according to the present invention.

First, as shown in FIG. 4, when the CLP 50 is installed at a predetermined height according to the installation of the containment building of the nuclear power plant, the upper lug 11 of the lugs 10 is installed above the CLP 50, and the lug The lower lug 13 of 10 is attached to the lower end of the upper lug 11.

Then, as shown in FIG. 5, the suspension cable 30 is connected to the upper lugs 11 and the lower lugs 13, respectively.

In such a state, as shown in FIG. 6, the suspension cable 30 is connected to the cable loop in a state in which the water collecting tank 20 installed therein is lifted through a lifting equipment (not shown) such as a crane. 21) to support the sump 20 inside the CLP 50.

Subsequently, the roof membrane 40 is coupled to the upper portion of the suspension cable 30 as shown in FIG. 7. At this time, the roof film 40 may be coupled to the suspension cable 30 by forming a hook (not shown) on the bottom, or may be coupled in various ways.

And, as shown in Figure 2 is connected to the drainage pipe 25 is fixed to the side of the CLP 50 and the underwater motor 23 to complete the installation.

On the other hand, the inner roof system (1) for the containment building section of the nuclear power plant according to the present invention is dismantled and lifted as necessary, and then reinstalled, for example, dismantled and reinstalled according to the stacking of the CLP (50) or the height of the building. do.

In this case, after removing the drain pipe 25, the sump 20, the roof membrane 40 and the suspension cable 30, only the lower lug 13 is dismantled and installed again on the upper lug 11 again. do. At this time, the drain pipe 25, the sump 20, the roof membrane 40 and the suspension cable 30 may be in a state of supporting the lifting equipment.

Then, the suspension cable 30 is connected to the lower lug 13 and the upper lug 11 by the above-described process, and then the sump 20 and the suspension cable 30 are connected.

Then, the roof membrane 40 is coupled to the upper portion of the suspension cable 30, and then the drain pipe 25 and the underwater motor 23 are connected to complete the reinstallation.

On the other hand, since the roof membrane 40 is installed so that its center is inclined downward by the inclination of the suspension cable 30, the rainwater is collected into the sump 20 through the drain hole 41 and then the underwater motor 23. Due to the operation of the drain pipe 25 is drained.

Then, when the input of the construction material is necessary, the construction material is input through the material input hole 43 of the roof membrane 40 through a separate lifting equipment.

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: lug 20: sump
30: suspension cable 40: roof membrane

Claims (6)

In the internal roof system installed in the CLP coupled in multiple stages to form a containment building of a nuclear power plant,
A lug having an upper lug installed at equal intervals at an upper end of an inner surface of the CLP, and a lower lug installed at a lower end of the upper lug;
A water collecting tube having an upper surface formed in an open cylindrical shape, and having a plurality of cable loops installed at a position opposite to the lug on an outer surface thereof;
A suspension cable having one end connected to the lug and the other end connected to the sump to support the sump; And
It includes a roof film coupled to the upper portion of the suspension cable,
The lug is
Internal roof system for the containment building section of the nuclear power plant, characterized in that when the lifting and re-installation of the roof membrane to dismantle the lower lug only to install the lower lug on top of the upper lug. delete delete The method of claim 1,
The sump can,
An inner roof system for a containment building section of a nuclear power plant, characterized in that the water motor is installed on the inner bottom, and the drain pipe fixed to the side of the CLP is connected to the underwater motor. The method of claim 1,
The suspension cable,
The inner roof system for the containment building section of the nuclear power plant, characterized in that the fastening is respectively formed to the upper lug and the lower lug of the lug to be inclined around the sump, so that the center of the roof film is inclined downward. The method of claim 1,
The roof membrane is
A nuclear power plant, which is formed in an octagonal form of a membrane material that transmits light, has a drainage hole for draining rainwater through the sump at a central portion thereof, and a material inlet is formed at one side to allow material input to the side. Roof system for containment sections

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