KR200223713Y1 - Reactor Protection Cover - Google Patents

Abstract

The present invention relates to a reactor protective cover in a nuclear power plant. More specifically, the present invention relates to a reactor protective cover for covering a top open surface of a nuclear reactor and providing a space for a worker to work safely and freely when working on the upper side of the reactor. Improvement of working conditions, securing space for stud hole maintenance work, Reactor Vessel Flange O-Ring Surface and Reducing the amount of radiation in the reactor, built-in lead plate for worker's psychological stability and preventing foreign substance inflow during reactor management The reactor protection cover according to the present invention is characterized by providing a flat reactor protection cover of the same height as the flange face of the reactor vessel.

Description

Reactor Protection Cover

The present invention relates to a reactor protective cover in a nuclear power plant. More particularly, the present invention relates to a reactor protective cover for covering an upper open surface of a reactor to provide a space for a worker to work safely and freely when working on the upper side of the reactor.

Reactor disassembly and assembly is the most important part of the plant's preventive maintenance work. Although the stud hole soundness is required by repeating the disassembly and reassembly of the studs for the reactor disassembly and reassembly, the space in the reload tank and the upper side of the reactor vessel are reduced. Due to the openness of the reactor vessel, the radiation dose of the reactor vessel is very high, and the psychological instability of the workers due to the work in the high radiation area and the working time limit for the management of the exposure of the workers in terms of radiation safety management are limited. The input of unskilled workers causes problems such as deterioration of maintenance reliability, delay of work and delay of planned preventive maintenance.

In addition, due to the fact that the upper side of the reactor vessel is open, foreign material inflow and excessive exposure of workers may cause work conditions such as stud hole cleaning, inspection, and lubricant application only when the reactor head is seated in the reactor vessel. Lack of complete care is increasing the likelihood of stud sticking and thread damage.

Reactors used in foreign countries as improvement measures to minimize the cause of stud fixation during the preventive maintenance period, to improve the reliability of work by cleaning the stud hole, preventing foreign material inflow and psychological stabilization of workers, and creating conditions for reducing the amount of radiation. Although the cover and the reactor protection cover used in Uljin 1,2 were reviewed, a new method was required because of problems in terms of cost and stud hole integrity, and accessibility problems that could not be guaranteed.

The present invention improves working conditions such as stud hole cleaning, inspection, and lubricant application, secures working space, protects the reactor vessel flange o-ring surface, and reduces the amount of radiation splitting due to the built-in lead plate. Psychological stability of the reactor, and to provide a reactor protection cover for preventing the inflow of foreign matter during reactor management, the reactor protection cover according to the present invention is characterized by providing a flat reactor protection cover of the same height as the flange surface of the reactor vessel.

1 is a perspective view schematically showing a nuclear reactor cover and the reactor of the present invention

Figure 2 is a cross-sectional view showing a nuclear reactor protective cover of the present invention to cover the reactor vessel

3 is a plan view of the protective cover of the present invention covering the reactor vessel.

*** Explanation of major symbols in drawings ***

DESCRIPTION OF SYMBOLS 1: protective cover 100: reactor vessel 200: upper reactor contents

110: guide pole 210: alignment key

Reference Signs List 10 top plate 11 lug 12 guide 13 keyhole

20: bottom plate 30: I-Beam structure

40: lead plate layer

It will be described in detail with the accompanying drawings for the reactor protective cover according to the present invention for achieving the object of the present invention as described above.

1 is a perspective view schematically showing the reactor cover and the reactor of the present invention, Figure 2 is a cross-sectional view showing the reactor cover of the present invention cover the reactor vessel, Figure 3 is a protective cover of the present invention the reactor It is a top view of the state which covered the container.

The reactor protection cover of the present invention is a flat top plate 10 having the same size as the long diameter of the reactor vessel, and a bottom plate 20 forming a bottom while forming a cylindrical shape spaced apart at regular intervals on the lower side of the top plate, and the top plate and the bottom plate. I-Beam structure 30, which is a structure that connects the difference, is composed of a lead plate layer 40 formed in a double layer on the upper surface of the bottom plate.

Three lugs 11 are formed on the upper surface of the upper plate 10 at a predetermined interval and the lifting rope R is disposed, and a pair of guides GUID 12 are placed on the edge of the upper plate. It is fixed toward the four sides, four rectangular key holes 13 are formed in the groove shape at the edge of the top plate.

The set of guides 12 is fitted to a set of guide poles (GUIDE POLE 110) formed to stand on the upper edge of the reactor vessel 100 to guide the reactor cover 1 of the present invention.

The i-beam structure 20 is formed by arranging the boards using a plurality of i-beams by fixing them while being spaced apart between the top plate 10 and the bottom plate 20 (specific illustration is omitted).

As described above, the lead plate layer 40 is formed on the upper surface of the bottom plate 20 in a state in which the top plate 10 and the bottom plate 20 are fixed to the i-beam structure 30, and the lead plate layer 40. Is a function of shielding the harmful radiation emitted from the upper reactor 200 of the reactor vessel (100).

Reactor protective cover 1 of the present invention made of such a configuration as shown in Figure 1 by inserting the guide 12 into the guide pole 110, the three cover 11 while guiding the protective cover (1) Hanging the lifting rope (R) to the protective cover 1 by using a crane or the like slowly lowering the upper portion of the reactor vessel 100, the protective cover 1 is covered with the upper portion of the reactor vessel 100 as shown in FIG. At this time, the bottom plate 20 of the protective cover (1) is assembled on the inner side of the reactor vessel 100 and is placed on the upper nuclear reactor interior 200 formed by four alignment keys 210 on the upper surface, The upper plate 10 of the protective cover 1 is aligned with the reactor vessel 100 while the alignment keys 210 are respectively inserted into the key holes 13 formed at four edges of the upper cover 10 of the protective cover 1. ) And the bottom plate 20 of the protective cover 1 is placed on the upper reactor 200, the reactor vessel is to be covered.

As described above, the behavior is illustrated in FIGS. 2 and 3, wherein reference numeral S of FIG. 2 represents a stud hole in which a stud is formed.

Reactor disassembly according to the present invention, as shown in Figures 2 and 3 to provide a flat nuclear reactor cover of the same height as the flange face of the reactor vessel, the reactor decomposition as part of the plant preventive maintenance work , The stud removal and reinstallation for the assembly can be performed by the operator with the equipment on the upper plate of the reactor protective cover (1) of the present invention stably.

As the reactor protection cover according to the present invention is formed by covering the reactor vessel on the top as described above, it is possible to safely perform work such as repair of the stud by disassembling the stud formed on the upper side of the reactor vessel without excessive exposure fear. By providing a flat working space while providing the conditions, the access to the reactor stud hole, which is the core facility of the nuclear power plant, can be easily accessed. Therefore, the stud hole can be cleaned and the thread damage can be prevented by inspecting the reactor stud hole. This improves the reliability of the nuclear power plant, thereby improving the reliability of the overall nuclear power plant and reducing its maintenance costs, thereby preventing the introduction of foreign substances into the reactor vessel.

Claims (2)

It is configured to cover the reactor vessel including the lower interior of the nuclear power plant, the flat top plate 10 and the bottom plate 20 which forms a bottom while forming a cylindrical shape spaced apart at regular intervals on the lower side of the top plate, between the top plate and the bottom plate Reactor protective cover consisting of a lead plate layer (40) formed in a plurality of layers on the upper surface of the bottom plate I-Beam structure 30, which is a structure connecting the 3. The three lugs (LUG) 11 according to claim 1, having a predetermined interval on the upper surface of the upper plate 10 and the lifting rope R, and a pair of guides facing each other at the edges of the upper plate. 12) and the reactor protective cover formed with four square keyholes 13 in the form of grooves at the edge of the top plate.