JPH0422477B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention provides a method for replacing an in-core monitor flange for supporting the lower end of a neutron measuring tube (in-core monitor) in a boiling water nuclear reactor between this and an in-core monitor housing. This invention relates to an in-core seal test plug that checks the presence or absence of leakage from the metal "O" ring seal part of a product.

[Technical background of the invention and its problems] In general, in boiling water reactors, in order to keep the neutron flux inside the reactor in an appropriate distribution state during the operation period, a rod-shaped in-core neutron system measurement tube, that is, an in-core monitor, is used. is inserted between fuel assemblies to monitor the distribution of neutron flux.

This in-core monitor uses the extension force of a spring installed at its upper end to fit its head into the intersection of the upper grid plate inside the furnace, and its lower end has a flange that forms a seat for abutment and support. It is connected and installed via an "O" ring. The seat of this flange has a mirror finish and is placed in close contact with the lower end of the in-core monitor to prevent leakage of reactor water. ``Rings, etc. will need to be replaced.

When replacing such an in-core monitor flange, the interior of the reactor pressure vessel and the in-core monitor guide pipe are temporarily shut off to prevent reactor water from being discharged.

In this case, after replacing the in-core monitor flange and "O" ring, it is necessary to check for leaks from the metal "O" ring seal, but this work requires installing a sealing member inside the in-core guide tube. It was troublesome to remove and install water pressure supply ports, etc., and it took a long time, so there was a risk that the workers would be exposed to radiation.

[Purpose of the invention]

The present invention was made in order to eliminate the above-mentioned drawbacks in the background art, and when replacing the in-core monitor flange, it is necessary to check for leakage from the metal "O" ring seal between the in-core monitor housing and the in-core monitor flange. To provide an in-core seal test plug that can be carried out safely, reliably, and easily without adversely affecting.

[Summary of the invention]

The in-core seal test plug of the present invention connects a sleeve that is detachably attached to the flange of an in-core monitor that measures in-core neutrons, a shaft that is vertically inserted into this sleeve, and this shaft and the sleeve. It is characterized by comprising a gasket, and a water pressure supply port and a pressurization port provided in the sleeve to apply water pressure to the metal "O" ring seal portion.

[Embodiments of the invention]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 3 is a cross-sectional view showing the main parts of a nuclear reactor. A core support plate 13 is horizontally provided on a shroud 12 that is integrated with a reactor core 10 and a pressure vessel 11 containing cooling water. An in-core monitor housing 14 is fixedly fixed to the bottom portion 11a of the pressure vessel 11 located below the support plate. An in-core guide pipe 15 is provided in the upper part of the in-core monitor housing 14 so as to pass through the core support plate 13 .

An in-core monitor 16 is removably inserted into the upper end opening 15a of the in-core guide tube 15.
The upper part of this in-core monitor 16 is an upper grid plate 17.
It is inserted into the lower side of the intersection. An in-core monitor flange 19 formed with a seat for abutment and support is coupled to the lower end of the in-core monitor housing 14 via a metal "O" ring seal portion 20.

As mentioned above, the in-core monitor flange 19 is used to prevent leakage of reactor water, and the in-core monitor flange 19 and the metal "O" ring seal part 20 are periodically cleaned to remove oxides and the like that adhere to the surface thereof. We are doing an exchange.

The in-core seal test plug of the present invention is used to check for leaks in the metal "O" ring seal after this replacement work.As shown in FIG. It will be installed.

The in-core monitor flange has a shaft 22 built into the center of a sleeve 21, and a nut 23 for rotating the shaft is screwed onto the lower end of the shaft 22.

Further, the upper end of the sleeve 21 and the upper end of the shaft 22 protruding therefrom are fluid-tightly connected by a packing 24 made of a flexible material between the upper ends of a packing 22 made of a flexible material. This packing 24 is provided with rings 25 at several locations at appropriate intervals in the axial direction to suppress expansion of the packing 24 in the radial direction.

A water pressure supply port 26 is opened in the sleeve 21 below the in-core flange, and a pressure port 27 is provided near the metal “O” ring seal portion 20.
is open. 28 indicates an "O" ring that seals between the sleeve 21 and the shaft 22.

In the in-core seal test plug of the present invention having such a configuration, when the nut 23 is rotated,
The shaft 22 is lowered, and the packing 24 is attached to the ring 2.
5, it deforms into a serpentine shape as shown in FIG. 2, and comes into pressure contact with the inner surface of the in-core monitor housing. In this state, when water pressure is applied to the water pressure supply port 26 provided on the side of the sleeve 21 of the In-Core seal test plug, this water pressure is supplied into the In-Core monitor housing 14 through the processing port 27, and the metal "O" ring seal portion 20 Since it pressurizes
You can check whether there is a leak from there.

〔Effect of the invention〕

As mentioned above, the in-core seal test plug of the present invention is inserted into the in-core monitor flange after replacing the in-core monitor flange and the metal "O" ring seal part, and after inflating the seal, water pressure is applied from the water pressure supply port 26. By doing so, leakage from the metal "O" ring seal between the in-core monitor housing and the in-core monitor flange can be confirmed easily and reliably. Therefore, since the in-core monitor housing can be replaced quickly and in a short period of time, the radiation exposure of the worker can be reduced, and the replacement work can also be done easily.

[Brief explanation of drawings]

Figures 1a and b are longitudinal sectional views and end views of the in-core seal test plug of the present invention mounted on an in-core monitor housing, and Figure 2 is a state in which the seal of the in-core seal test plug of the present invention is deformed and sealed. FIG. 3 is a vertical cross-sectional view showing the main parts of the nuclear reactor. 10...Reactor core, 11...Pressure vessel, 12...
Shroud, 13... Core support plate, 14... In-core monitor housing, 15... In-core monitor guide tube, 16... In-core monitor, 20... Metal "O" ring seal portion, 21... Sleeve, 2
2... Shaft, 23... Nut, 24... Packing, 25... Ring, 26... Water pressure supply port, 2
7...Pressure port, 28..."O" ring.

Claims (1)

[Claims] 1. A sleeve that is removably attached to the flange of an in-core monitor that measures in-core neutrons, a shaft that is vertically movably inserted into the sleeve,
A flexible packing fluid-tightly connects the shaft and the sleeve, and a water pressure supply port and a pressure hole provided in the sleeve to apply water pressure to a metal "O" ring seal portion. Features an in-core seal test plug. 2. The in-core seal test plug according to claim 1, characterized in that a plurality of rings for equalizing the bellows-like deformation are attached to the outer surface of the packing spaced apart from each other in the axial direction of the packing. .