KR102598264B1 - Reinforcement and support structure for reactor vessel - Google Patents

Abstract

A reinforced support structure for a nuclear reactor vessel is disclosed. The reinforcing support structure of the nuclear reactor vessel is a reactor vessel installed inside the structure while being spaced apart from the inner wall of the structure, and a support structure for the reactor vessel that supports the reactor vessel inside the structure, forming a circumference of the reactor vessel. Accordingly, it is installed inside the structure and is installed between a plurality of first supports to support the nuclear reactor vessel, and is spaced apart from the outer surface of the reactor vessel during normal operation of the nuclear power plant and is installed during abnormal operation of the nuclear power plant. and a second support portion supported in contact with the surface of the expanded reactor vessel.

Description

Reinforcement support structure for reactor vessel {REINFORCEMENT AND SUPPORT STRUCTURE FOR REACTOR VESSEL}

The present invention relates to a reinforced support structure for a nuclear reactor vessel with improved durability and stability.

In general, a nuclear reactor is a device that constitutes a nuclear power plant. It controls the nuclear fission reaction so that a large amount of mass defect energy is released instantaneously as a result of a chain nuclear fission reaction, and uses the heat energy generated during the nuclear fission reaction as power. It is a device.

Such a nuclear reactor includes a structure installed as a barrier to prevent radioactive materials from leaking to the outside, and a reactor vessel installed inside the structure.

Meanwhile, when the reactor vessel is installed inside the structure, excessive expansion occurs during abnormal operation, and a structure that maintains a structurally stable state is required to prevent durability deterioration in the abnormal expansion state.

One embodiment of the present invention seeks to provide a reinforced support structure for a nuclear reactor vessel that can provide stable support even when the reactor vessel is abnormally expanded.

One embodiment of the present invention is a nuclear reactor vessel installed inside the structure while being spaced apart from the inner wall of the structure, and a support structure for the reactor vessel that supports the reactor vessel inside the structure, and has a circumference of the reactor vessel. Accordingly, it is installed inside the structure and is installed between a plurality of first supports to support the nuclear reactor vessel, and is spaced apart from the outer surface of the reactor vessel during normal operation of the nuclear power plant and is installed during abnormal operation of the nuclear power plant. and a second support portion supported in contact with the surface of the expanded reactor vessel.

The first support portion may include a support base installed between the reactor vessel and the inner wall surface of the structure, and a column support portion protruding upward from the support base.

The second support part includes a base member installed between the reactor vessel and the inner wall of the structure, a post member protruding from the upper side of the base member to a position between the reactor vessel and the inner wall of the structure, and is installed on the post member and is installed at the nuclear power plant. It may include a pad portion that is spaced apart from the outer surface of the reactor vessel during normal operation and is in contact with and supported on the surface of the expanded reactor vessel during abnormal operation of the nuclear power plant.

A concave portion that contacts the surface of the reactor vessel may be formed in the pad portion.

A contact detection sensor that senses the state of contact with the reactor vessel may be installed in the pad portion.

A plurality of contact detection sensors may be installed on the surface of the concave portion.

According to an embodiment of the present invention, when expansion deformation of the reactor vessel occurs during the abnormal operation of a nuclear power plant, it is possible to stably support the deformed state, thereby improving the safety of the nuclear power plant by securing durability.

Figure 1 is a schematic cross-sectional view of the main part of a nuclear reactor vessel according to an embodiment of the present invention, in a planar state in which the reinforcing support structure is installed.
Figure 2 is a schematic cross-sectional view of the main part of a first support according to an embodiment of the present invention.
Figure 3 is a perspective view schematically showing a second support according to an embodiment of the present invention.
Figure 4 is a cross-sectional view schematically showing the main part in a planar state when the second support of Figure 3 is installed.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and identical or similar components are given the same reference numerals throughout the specification.

Figure 1 is a main sectional view schematically showing a planar state in which the reinforcing support structure of the nuclear reactor vessel according to an embodiment of the present invention is installed, and Figure 2 schematically shows a first support according to an embodiment of the present invention. It is a main sectional view, and FIG. 3 is a perspective view schematically showing a second supporter according to an embodiment of the present invention, and FIG. 4 is a main sectional view schematically showing the installed state of the second supporter of FIG. 3 in a planar state. .

As shown in FIGS. 1 to 4, the reactor vessel reinforcement support structure 300 according to an embodiment of the present invention includes a reactor vessel installed inside the structure while being spaced apart from the inner wall surface of the structure 11. , a support structure for the reactor vessel 13 that supports the reactor vessel 13 inside the structure 11, and is installed inside the structure along the circumference of the reactor vessel 13 to support the reactor vessel 13. A reactor vessel (13) is installed between the first support parts (100) and the plurality of first support parts, is spaced apart from the outer surface of the reactor vessel (13) during normal operation of the nuclear power plant, and is inflated during abnormal operation of the nuclear power plant. It includes a second support portion 200 that is supported and in contact with the surface of.

The reactor vessel 13 is installed inside a reactor vessel internals (RVI), and may be installed within the structure 11 at a certain interval. This is because vibration occurs and expansion of the reactor vessel 13 occurs under steady and transient operating conditions of the reactor vessel, so the reactor vessel 13 is stable inside the structure 11. It is for installation.

In order to stably install the reactor vessel 13 inside the structure 11, a first support part 100 and a second support part 200 may be installed between the structure 11 and the reactor vessel 13. there is.

A plurality of first supports 100 may be installed between the structures 11 and the circumference of the reactor vessel 13 .

To be more specific, the first support portion 100 includes a support base 10 installed between the reactor vessel 13 and the inner wall surface of the structure 11, and a column protruding upward from the support base 10. It may include a support portion 20.

The support base 10 is installed in a supported state at a lower position between the reactor vessel 13 and the structure 11, and may be fixed to the floor by a predetermined fastening member such as a predetermined bolt member.

A column support portion 20 may be installed on the upper side of the support base 10.

The column support portion 20 is installed in a protruding state toward the upper side of the support base 10, and is installed in a protruding state at a position between the reactor vessel 13 and the structure 11 to support the installed state of the reactor vessel 13. Can be installed to maintain structural stability.

A plurality of first supports 100 may be installed along the circumference of the reactor vessel 13, spaced apart from each other. A second support part 200 may be installed between the plurality of first support parts 100.

The second support part 200 is installed at a position between the plurality of first supports 100, and is installed at a position between the reactor vessel 13 and the structure 11 at a position between the first supports 100, It can be installed to stably support the reactor vessel 13 during abnormal operation of the reactor vessel 13.

To be more specific, the second support portion 200 includes a base member 110 installed between the reactor vessel 13 and the inner wall of the structure 11, and a reactor vessel ( 13) and a post member 120 that protrudes to a position between the inner wall surface of the structure 11, and is installed on the post member 120 and is spaced apart from the outer surface of the reactor vessel 13 during normal operation of the nuclear power plant and It may include a pad portion 130 that contacts and supports the surface of the expanded reactor vessel 13 during abnormal operation.

The base member 110 is installed between the reactor vessel 13 and the inner wall of the structure 11, and is located on the bottom surface between the reactor vessel 13 and the inner wall of the structure 11. It can be fixed as .

A plurality of fastening holes are formed in the base member 110, and the bolt member 111 can be firmly fixed to the floor while being inserted into the fastening hole by screwing.

The base member 110 is formed in the shape of a rectangular block, and can be installed in a position between the reactor vessel 13 and the structure 11 to firmly support the pad portion 130. . Of course, the base member 110 is not necessarily limited to a rectangular parallelepiped shape, and may be appropriately modified so that a portion of the edge includes a round shape depending on the shape and spacing between the reactor vessel 13 and the structure 11. It is also possible.

A post member 120 may be installed on the upper side of the base member 110.

The post member 120 is installed in a protruding state on the upper side of the base member 110, and may protrude upward as a single piece at approximately the center position in the longitudinal direction of the base member 110.

The post member 120 protrudes to the upper side of the base member 110 in the shape of a rectangular parallelepiped block and may be installed to stably support the pad portion 130, which will be described later.

The post member 120 is illustratively described as protruding toward the upper side of the base member 110 in a rectangular parallelepiped shape, but is not necessarily limited thereto, and is installed in a shape changed to a cylindrical shape, etc., on the upper side of the base member 110. It is also possible.

In addition, the post member 120 is exemplarily described as being installed as a single piece, but is not necessarily limited thereto, and may be installed in plural pieces for stable installation in response to changes in the shape and size of the pad member.

A pad portion 130 may be installed on this post member 120.

The pad portion 130 may be installed to selectively support the side of the reactor vessel 13 with one side installed on the post member 120.

The pad portion 130 is installed on the post member 120 to selectively support the side of the reactor vessel 13, and contacts and supports the surface of the expanded reactor vessel 13 during abnormal operation of the nuclear power plant. It can be installed to do so.

That is, the pad portion 130 is spaced a certain distance away from the reactor vessel 13 during normal operation of the nuclear power plant, and contacts and supports the surface of the reactor vessel 13, which is inflated due to an operation error, during abnormal operation of the nuclear power plant. Can be installed.

Since the pad portion 130 has a concave portion 131 formed on its outer surface, it can be supported in stable contact with the round-shaped outer surface of the reactor vessel 13.

The pad portion 130 is exemplarily explained in that the surface of the concave portion 131 is in direct contact with the surface of the reactor vessel 13 and is supported in contact with the surface of the reactor vessel 13. However, the pad portion 130 can also support the reactor vessel 13 in a shock-absorbing state by attaching a predetermined cushioning member (not shown) to the surface of the concave portion 131.

Meanwhile, it is also possible for a contact detection sensor 140 to be installed in the concave portion 131 of the pad portion 130.

The contact detection sensor 140 may be installed on the surface of the concave portion 131 to sense the contact state of the reactor vessel 13.

A plurality of contact detection sensors 140 are installed on the surface of the concave portion 131, and can be installed to stably detect a state in which the surface of the reactor vessel 13 is in contact with the pad portion 130.

In this way, since a plurality of contact detection sensors 140 are installed in the concave portion 131 of the pad portion 130, abnormal operating conditions of the nuclear power plant can be detected more easily.

As described above, the reinforced support structure 300 of the nuclear reactor vessel of this embodiment is capable of stably supporting the deformed state when deformation of the reactor vessel 13 occurs during the abnormal operation of the nuclear power plant, and thus durability. It is possible to improve the safety of nuclear power plants by securing it.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto and can be implemented with various modifications within the scope of the claims, the detailed description of the invention, and the accompanying drawings, and this is also the present invention. It is natural that it falls within the scope of .

11...structure 13...reactor vessel
10...support base 20...column support
100..First support 110..Base member
111.. Bolt member 120.. Post member
130..Pad part 131..Concave part
140.. Contact detection sensor 200.. Second support
300.. Reactor vessel reinforcement support structure

Claims (6)

A reactor vessel installed inside the structure while being spaced apart from the inner wall of the structure, and a support structure for the reactor vessel that supports the reactor vessel inside the structure,
a plurality of first supports installed inside the structure along the circumference of the reactor vessel and supporting the reactor vessel; and
a second support part installed between the plurality of first supports, spaced apart from the outer surface of the reactor vessel during normal operation of the nuclear power plant, and contacting and supporting the expanded surface of the reactor vessel during abnormal operation of the nuclear power plant;
Including,
The second support part,
a base member installed between the reactor vessel and an inner wall of the structure;
a post member protruding from an upper side of the base member to a position between the reactor vessel and an inner wall surface of the structure; and
a pad portion installed on the post member, spaced apart from the outer surface of the reactor vessel during normal operation of the nuclear power plant, and in contact with and supported by the surface of the reactor vessel expanded during abnormal operation of the nuclear power plant;
Includes,
A reinforcing support structure for a nuclear reactor vessel, wherein a contact detection sensor for sensing a state of contact with the reactor vessel is installed on the pad portion. According to paragraph 1,
The first support part,
a support base installed between the reactor vessel and an inner wall of the structure;
a column support portion protruding upward from the support base;
Reinforcing support structure of the reactor vessel, including. delete According to paragraph 1,
A reinforcing support structure for a nuclear reactor vessel, wherein a concave portion in contact with the surface of the reactor vessel is formed in the pad portion. delete According to paragraph 4,
A reinforcing support structure for a nuclear reactor vessel, wherein a plurality of the contact detection sensors are installed on the surface of the concave portion.

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