KR102332460B1 - Vibration isolation system for steam generator - Google Patents

Abstract

The present invention relates to a seismic isolating system for a steam generator, and the present invention includes: a base plate on which a steam generator of a nuclear reactor is seated and supported; A first vibration receiving means coupled to the lower portion of the base plate, by sliding the base plate in a first direction with respect to the ground, to receive the vibration of the steam generator in the first direction; a moving plate coupled to a lower portion of the first vibration receiving means; It is coupled to the lower portion of the moving plate, by sliding the moving plate in a second direction intersecting the first direction with respect to the ground, receiving a second vibration for accommodating the vibration of the steam generator in the second direction Way; and a fixing plate coupled to a lower portion of the second vibration receiving means and fixed to the ground.
According to the present invention, by accommodating the movement of the steam generator by using a linear bearing in the front and rear, left and right directions, the steam generator can freely move forward, backward, left and right, so that there is no strain on the connecting pipe, and it does not cause metal wear and thus steam Of course, it is possible to maintain the soundness of the lower structure of the generator, unlike the existing sliding base, by distributing and supporting the load of the steam generator over the entire area, it includes the effect of preventing local loads and metal abrasion.

Description

Vibration isolation system for steam generator

The present invention relates to a seismic isolating system for a steam generator, and more particularly, by moving the lower structure of the steam generator in which vibrations due to thermal expansion and thermal contraction occur in the forward, backward, left and right directions using a linear bearing, the steam generator is isolated from vibration. It relates to an isolation system of a steam generator.

A nuclear reactor and a reactor coolant system (RCS) are accommodated inside the containment building of a nuclear power plant, as described in "Republic of Korea Patent Publication No. 10-1473665, a pipe support device for replacing parts in a nuclear power plant".

Here, the reactor coolant system has a reactor containing the reactor and at least one heat transfer circuit connected thereto. Each circuit includes a steam generator and at least one coolant pump for circulating coolant between the reactor vessel and a plurality of piping connecting between the reactor, steam generator and coolant pump. .

At this time, as the pipe connecting the steam generator and the reactor is maintained at a high temperature during the operation period of the power plant and is repeatedly lowered to a low temperature during the stop period of the power plant for maintenance, movement due to thermal contraction and thermal expansion of the pipe to the steam generator occurs. In order to accommodate this movement, the lower part of the steam generator has a hemispherical shape in four directions of the front, back, left, and right directions, and a sliding base equipped with a slide using graphite as a lubricant is used.

However, the sliding base structure, which is hemispherical and supported on slides installed in four four directions to accommodate the movement of the steam generator, limits the movement according to the curvature of the slide, which not only puts a strain on the piping for connection, but also There is a problem with metal wear.

『Korea Registered Patent Publication No. 10-1473665』

An object of the present invention is to provide a vibration isolation system for a steam generator that can more easily accommodate the motion of the steam generator.

In order to achieve this object, the present invention, a base plate on which the steam generator of the nuclear reactor is seated and supported; a first vibration receiving means coupled to a lower portion of the base plate and accommodating the vibration of the steam generator in the first direction by sliding the base plate in a first direction with respect to the ground; a moving plate coupled to a lower portion of the first vibration receiving means; It is coupled to the lower portion of the moving plate, by sliding the moving plate in a second direction intersecting the first direction with respect to the ground, receiving a second vibration for accommodating the vibration of the steam generator in the second direction Way; and a fixing plate coupled to a lower portion of the second vibration receiving means and fixed to the ground.

According to the present invention, the following effects are obtained.

First, by accommodating the movement of the steam generator by using a linear bearing in the forward, backward, left, and right directions, the steam generator can freely move forward, backward, left and right, so that there is no strain on the connecting pipe, and it does not cause metal wear, so the lower structure of the steam generator can maintain the integrity of

Second, unlike the existing sliding base, by dispersing and supporting the load of the steam generator over the entire area, it includes the effect of preventing local load and metal abrasion.

Third, by replacing the existing sliding base, which relied on imports, with a linear bearing that can be produced domestically, it is possible to shorten the time to receive the material, as well as to smoothly supply the material even in an urgent need.

1 is a view showing the arrangement of a steam generator and a lower structure supporting the same according to an embodiment of the present invention.
FIG. 2 is an enlarged view of the seismic isolation system of the steam generator which is the lower structure of FIG. 1 .
3 is an exploded perspective view showing a detailed configuration of the seismic isolation system of FIG. 2 .

1 shows a steam generator according to an embodiment of the present invention together with a lower structure supporting the same, and FIGS. 2 and 3 show detailed configurations of the seismic isolation system of the steam generator as the lower structure, respectively.

1 to 3, the vibration isolation system 100 of the steam generator SG according to an embodiment of the present invention is to accommodate the vibration of the steam generator SG according to the thermal expansion and thermal contraction of the pipe, the base It includes a plate 110 , a first vibration receiving means 120 , a moving plate 130 , a second vibration receiving means 140 , and a fixed plate 150 .

The base plate 110 is formed in a rectangular shape in the same way as for the purpose of the existing sliding base, and supports the steam generator SG by seating it thereon.

The first vibration receiving means 120 is integrated with or coupled to the lower portion of the base plate 110 and integrally slidingly moved in the first direction with respect to the base plate 110 and the ground, the first of the steam generator (SG). It accepts vibrations for direction. To this end, it includes a first guide groove 121 and a first guide rail 122 . The first guide groove 121 is a rail groove that is drawn in and extends in a first direction formed under the base plate 110 , and the first guide rail 122 is an upper portion of the moving plate 130 to be described later. It is a rail that is formed in the first guide groove 121 and protrudes outward with a structure corresponding to the shape and structure of the first guide groove 121 and extends in the first direction. In this case, it is needless to say that the first guide groove 121 and the first guide rail 122 may be disposed so that their vertical positions are exchanged.

In addition, it is preferable that a linear bearing is used as the first vibration receiving means 120 , and since the configuration and function of the linear bearing are well known, a detailed description thereof will be omitted. In addition, in an embodiment of the present invention, a linear bearing is assumed and illustrated as the first vibration receiving means 120 for moving the base plate 110 in the first direction, but the technical idea of the present invention is limited thereto No, it is obvious that any configuration for sliding the base plate 110 in the first direction is within the scope of the technical idea of the present invention.

The moving plate 130 is formed in a rectangular shape, and is coupled to the lower portion of the first vibration receiving means 120 , and as described above, a first guide rail 122 is formed on the upper portion, and a second to be described later on the lower portion. A guide groove 141 is formed.

The second vibration receiving means 140 is integrated or coupled to the lower portion of the moving plate 130 and integrally slides the moving plate 130 with respect to the ground in a second direction intersecting the first direction, thereby generating a steam generator. To accommodate the vibration in the second direction of the SG, it includes a second guide groove 141 and a second guide rail 142 . Like the first guide groove 121 , the second guide groove 141 is a rail groove that is drawn into the inside formed under the moving plate 130 and extends in the second direction, and the second guide rail 142 will be described later. It is a rail that is formed on the upper portion of the fixing plate 150 to be formed, protrudes outward in a structure corresponding to the shape and structure of the second guide groove 141 and extends in the second direction. In addition, the second vibration accommodating means 140 also preferably uses the same linear bearing as the first vibration accommodating means 120 , and another configuration for sliding the moving plate 130 in the second direction is also used as a replacement. It is self-evident that it can

The fixing plate 150 is formed in a rectangular shape as described above, and is fixed to the ground with the second guide rail 142 formed thereon. The above-described moving plate 130 moves in the second direction by supporting the fixed plate 150 fixed to the ground in the front, rear, left and right directions, and the base plate 110 also supports the fixed plate 150 through the moving plate 130 . supported and moved in the first direction.

At this time, the base plate 110 and the first guide groove 121 are formed in an integrated state, and the first guide rail 122 , the moving plate 130 and the second guide groove 141 are formed in an integrated state. The second guide rail 142 and the fixing plate 150 may be formed in an integrated state, and when the positions of the guide grooves 121 and 141 and the guide rails 122 and 142 are changed, the base plate 110 and the first guide rail 122 are formed in an integrated state, and the first guide groove 121, the moving plate 130 and the second guide rail 142 are formed in an integrated state, and the second The guide groove 141 and the fixing plate 150 are formed in an integrated state.

Here, the first direction, which is the moving direction of the base plate 110 and the second direction, which is the moving direction of the moving plate 130 described above, are formed in a direction orthogonal to each other, so as not to oppose the movement of the steam generator SG in the forward, backward, left, and right directions. Preferably, the first direction and the second direction are formed with a connecting portion of a pipe connecting the reactor and the steam ejector in the nuclear reactor therebetween so that the two vibration receiving means are used evenly, thereby evenly distributing the applied load. The process of absorbing movement by sliding can be made more smoothly by allowing it to be accommodated, or by arranging it to coincide with the connection part of the pipe.

On the other hand, the base plate 110 and the moving plate 130 are formed in the same area and can be moved in the first direction and the second direction, respectively, with a state in which the center points coincide with the starting point, but in consideration of the imbalance in shape and structure, The center of gravity of each plate may be slidably moved in the first direction and the second direction with respect to the central point.

In addition, the base plate 110 and the moving plate 130 are formed in the same area as described above and slide each having the same starting point, as well as sliding and moving by the same radius (distance) in the first direction and the second direction. it is preferable However, since the sliding in the first direction must be located within the sliding radius in the second direction, the area (rail length) of the second vibration receiving means 140 for guiding the sliding in the second direction is equal to the first vibration receiving means ( 120) is preferably formed larger than the area (rail length), a stopper is installed at the end of each sliding rail (122, 142), each groove (121, 141) is the rail (122, 142) not to deviate from it.

In addition, by installing the base plate 110 and the moving plate 130 so that the center of gravity of the two plates before sliding and the center of gravity of the steam generator SG coincide with the virtual center line that is perpendicular to the ground, the steam after sliding When the external force does not act on the generator SG, the base plate 110 and the moving plate 130 return to their initial positions by the center of gravity to reduce deformation and wear caused by the installation imbalance of the steam generator SG. it is preferable

Furthermore, although not shown in the drawings, the fixed plate 150 rotates based on an imaginary center line about the center of gravity of the two plates 110 and 130 before the base plate 110 and the moving plate 130 slide. By doing so, it is possible to accommodate even torsional loads according to the asymmetry of the pipe, that is, due to asymmetric loads applied to the steam generator SG.

The seismic isolation system 100 using a linear bearing capable of sliding in two directions is not only a steam generator SG of a nuclear power plant according to an embodiment of the present invention, but also a vibration caused by thermal expansion and thermal contraction of a pipe, or other It goes without saying that it can be applied and used throughout the industry that can support high-load facilities that generate vibration due to reasons from the bottom.

Although the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: seismic isolation system
110: base plate
120: first vibration receiving means
121: first guide groove 122: first guide rail
130: moving plate
140: second vibration receiving means
141: second guide groove 142: second guide rail
150: fixed plate
SG: steam generator

Claims (13)

a base plate on which the steam generator of the nuclear reactor is seated and supported;
A first vibration receiving means coupled to the lower portion of the base plate, by sliding the base plate in a first direction with respect to the ground, to receive the vibration of the steam generator in the first direction;
a moving plate coupled to a lower portion of the first vibration receiving means;
It is coupled to the lower portion of the moving plate, by sliding the moving plate in a second direction intersecting the first direction with respect to the ground, receiving a second vibration for accommodating the vibration of the steam generator in the second direction Way; and
and a fixing plate coupled to a lower portion of the second vibration receiving means,
The first vibration receiving means,
A first guide groove of a structure drawn inward from the lower portion of the base plate is formed, and a first guide groove of a protruding structure corresponding to the first guide groove is formed on the upper portion of the moving plate for rolling coupling with the first guide groove. 1A guide rail is formed,
The second vibration receiving means,
A second guide groove having a structure drawn inward is formed under the moving plate, and a second protruding structure corresponding to the second guide groove is formed on the upper portion of the fixing plate for rolling coupling with the second guide groove. A guide rail is formed,
The base plate and the first guide groove are formed in an integrated state,
The first guide rail, the moving plate and the second guide groove are formed in an integrated state,
The base plate and the moving plate are respectively installed to coincide with the imaginary center line connecting the two centers of gravity before sliding and the center of gravity of the steam generator perpendicular to the ground,
The fixing plate is
The seismic isolating system of the steam generator rotates with respect to the ground based on the imaginary center line about the two centers of gravity before the base plate and the moving plate slide and move. delete delete delete delete delete delete a base plate on which the steam generator of the nuclear reactor is seated and supported;
A first vibration receiving means coupled to the lower portion of the base plate, by sliding the base plate in a first direction with respect to the ground, to receive the vibration of the steam generator in the first direction;
a moving plate coupled to a lower portion of the first vibration receiving means;
It is coupled to the lower portion of the moving plate, by sliding the moving plate in a second direction intersecting the first direction with respect to the ground, receiving a second vibration for accommodating the vibration of the steam generator in the second direction Way; and
and a fixing plate coupled to a lower portion of the second vibration receiving means,
The first vibration receiving means,
A first guide rail having a protruding structure is formed under the base plate, and for rolling coupling with the first guide rail, a first guide rail having a retracted structure corresponding to the first guide rail is formed on an upper portion of the moving plate. A guide groove is formed,
The second vibration receiving means,
A second guide rail having a protruding structure is formed under the moving plate, and a second guide rail having a retracted structure corresponding to the second guide rail is formed on an upper portion of the fixed plate for rolling coupling with the second guide rail. is formed,
The base plate and the first guide rail are molded in an integrated state,
The first guide groove, the moving plate and the second guide rail are formed in an integrated state,
The second guide groove and the fixing plate are formed in an integrated state,
The base plate and the moving plate are respectively installed to coincide with the imaginary center line connecting the two centers of gravity before sliding and the center of gravity of the steam generator perpendicular to the ground,
The fixing plate is
The seismic isolating system of the steam generator rotates with respect to the ground based on the imaginary center line about the two centers of gravity before the base plate and the moving plate slide and move. delete delete delete delete delete

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