JPS61234393A - Container structure of nuclear reactor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Field of application of the invention] The present invention relates to a containment structure for a nuclear reactor.

[Background of the invention]

The over-under containment vessel structure includes a diaphragm floor that divides the sealed vessel into a dry well and a pressure suppression chamber, and a number of vent downcomer pipes are provided through the diaphragm floor. A conventional diaphragm floor has an inner end supported by a pressure vessel pedestal, and has a network of a number of radial beams made of H-shaped steel extending in the radial direction from the pedestal and a number of cross beams positioned between the radial beams. These radial beams and cross beams are lined with a steel plate layer, a concrete layer is formed on this steel plate layer via stud bolts, and reinforcing bars that protrude radially inward from the inner peripheral edge of the concrete layer are embedded in the pedestal. The concrete layer is connected to the pedestal. The radial beam is supported near its outer end by a column support raised from the bottom of the suppression chamber.

The installation work of the conventional reactor containment vessel configured as described above in the construction of a nuclear power plant has become a critical path in the nuclear power plant construction process. Shortening the critical path of reactor containment vessel installation work is one of the measures to reduce nuclear power plant construction costs that is currently being strongly talked about. In order to shorten the critical path of this installation work process, it is desirable to simplify the reactor containment vessel structure to the necessary minimum. The conventional reactor containment vessel configured as described above requires a column support to support the diaphragm floor from the bottom, which complicates the interior of the pressure suppression chamber and has the disadvantage that the structure of the diaphragm floor itself is complicated. there were. Note that related devices of this type include, for example, Japanese Patent Publication No. 56-49316.
can be mentioned.

[Purpose of the invention]

An object of the present invention is to simplify the structure inside the pressure suppression chamber by integrating the reactor containment vessel and the diaphragm floor, and to provide a structure in which the diaphragm floor is simplified.

[Summary of the invention]

The gist of the present invention is to include a diaphragm floor that divides the containment vessel into a dry well and a pressure suppression chamber, an inner circumferential end of the diaphragm floor is inserted into and supported by a pressure vessel pedestal, and an outer circumferential edge of the containment vessel steel plate is inserted into and supported by the pressure vessel pedestal. In a nuclear reactor containment structure, the reactor containment structure includes a frame steel frame extending through the frame steel frame, the diaphragm floor extending radially from the pedestal, and a concrete layer buried between the frame steel frame, the diaphragm floor being inserted into and attached to the outer concrete of the containment vessel. The diaphragm floor is connected to the steel plate on the side surface of the containment vessel,
A containment vessel structure for a nuclear reactor is characterized in that it is integrated with the bottom steel plate of the containment vessel and the structure inside the pressure suppression chamber is simplified, and the structure of the diaphragm floor is embedded in a steel frame and the steel frame. The structure of the diaphragm floor was simplified by penetrating the pressure vessel pedestal and the concrete outside the containment vessel to support the diaphragm floor. Since a column support is not required, the structure of the pressure suppression chamber is simplified.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIG. The inner end of the diaphragm floor is supported by inserting the inner end of the steel plate layer 10 into the pressure vessel pedestal 6,
They are arranged from the pressure vessel pedestal 6 toward the outer periphery of the containment vessel. The outer periphery of the steel plate layer 10 is supported by penetrating the containment vessel outer steel plate 1 and being inserted into concrete 14 outside the containment vessel. On top of the steel plate layer 10, a concrete layer 11
This concrete layer 11 is inserted into and supported by the pressure vessel pedestal 6 and the concrete 14 outside the containment vessel. A steel plate layer 12 is formed on this concrete layer 11, and the inner end of the steel plate layer 12 is inserted into and supported by the pressure vessel pedestal 6 and the containment vessel outer concrete 14.

The steel plate layer 10 and the steel plate layer 12 are welded in concrete 14 outside the containment vessel. The steel plate layer 10 and the steel plate layer 12 and the concrete layer 11 are supported by a support steel 9. In addition, the steel plate 1 and the steel plate layer 10 on the side of the containment vessel
A support plate 10 is provided between them for reinforcement. As shown in FIG. 2, the above-described diaphragm floor is arranged around the entire circumference to withstand changes in pressure within the pressure suppression chamber.

〔Effect of the invention〕

According to the present invention, the structure of the diaphragm floor is
As shown in the figure, the steel plate layer 10. The diaphragm floor consisting of these structures can be supported by the pressure vessel pedestal 6 and the concrete 14 outside the containment vessel. This has the effect of simplifying the structure of the diaphragm floor and the structure inside the pressure suppression chamber.

[Brief explanation of drawings]

FIG. 1 is a longitudinal cross-sectional view of a part of an embodiment of the nuclear reactor containment structure of the present invention, FIG. 2 is a cross-sectional view taken along the line A-A in FIG. FIG. 3 is a vertical cross-sectional view of a portion of the reactor containment vessel. 1... Reactor containment vessel side steel plate, 2... Dry well, 3... Pressure suppression chamber.

Claims (1)

[Claims] 1. A diaphragm floor that divides the containment vessel into a dry well and a pressure suppression chamber; In a reactor containment vessel structure, the diaphragm floor includes a skeletal steel frame that is installed by penetrating outer concrete of the containment vessel and that extends in a radial direction from a pedestal, and a concrete layer buried between the skeletal steel frame. A containment vessel structure for a nuclear reactor, characterized in that: is integrated with a steel plate at the bottom of the containment vessel via a steel plate on a side surface of the containment vessel.