JPS6116959B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to the structure of a storage tank in an underwater cutting apparatus for radioactive metal waste.

Control rods used in a nuclear reactor must be replaced periodically, and used rods are disposed of, but these rods are radioactive and are generally kept at a depth of 13 meters due to radiation exposure concerns. Currently, the fuel is stored in the fuel pool.

As shown in FIG. 1, the control rod B is composed of a uniquely shaped speed limiter 4 having four rollers 5 at one end of a plus-shaped blade 3. Therefore, if such members are stored as they are in the fuel pool, the storage space will be large.

In recent years, due to the increase in the number of discarded parts of this type, securing storage space has become an important problem in the industry.

Therefore, control rod B was cut to reduce its volume.
Although it is possible to make effective use of storage space, control rod B has disadvantages compared to mechanical means, such as its complicated shape and the fact that the neutron absorption rod must not be broken or dropped during processing. However, no measures have been taken to reduce the volume.

For this reason, the present patent applicant stores at least the cutting part of radioactive metal waste such as the control rod B and a fusing torch in a container that is previously provided underwater,
We have proposed an underwater cutting device in which the radioactive metal waste is melted by moving the relative positions of the radioactive waste and the melting torch.

The present invention relates to the structure of a storage tank used in this underwater cutting device, and in the storage tank into which a control rod is fed and cut, the storage tank has a rectangular cylindrical cutting head and a lower end of the head. It consists of a cylindrical storage part that is removable from the head and linearly connected to the head, and a cylindrical dross collection part that is connected to the lower end of the storage part via an inclined part,
dividing the cutting head into a speed limiter fusing tank and a blade fusing tank in the longitudinal direction of the cutting head by a partition wall, and communicating the lower portions of the speed limiter fusing tank and the blade fusing tank with the storage portion; The speed limiter fusing tank is provided with a guide for the speed limiter roller and a movable fusing torch, while the blade fusing tank is provided with a guide that the tip of the blade of the control rod comes into contact with and a fixed fusing torch, and the movable fusing torch and a fixed fusing torch are respectively connected to a plasma arc power supply device.

An object of the present invention is to speed up the maintenance and inspection work of an underwater cutting device and to simplify the maintenance and inspection work.

Hereinafter, a second embodiment of the storage tank structure in the underwater cutting apparatus for radioactive metal waste according to the present invention will be described.
This will be explained with reference to FIGS.

FIG. 2 shows a case where the storage tank 11 is installed in the fuel pool P.
1 is a cutting head a, a storage part b, and a dross collecting part c
The cutting head a and the storage part b are removably connected by a flange 12. 13 is a plasma arc power supply device.

FIGS. 3 and 4 show a cutting head a' suitable for cutting control rod B by melting.
The figure is a plan view, and FIG. 4 is a sectional view taken along line EE in FIG. 3.

This cutting head a' divides the inside of the rectangular cylinder 23 by a partition wall 24, and the speed limiter fusing tank 2
5 and a blade fusing tank 26. Inside the speed limiter fusing tank 25, a guide 27 for the speed limiter roller and a movable fusing torch 28 are provided.
It is now connected to 6. At least two guides 27 are provided, and an inclined part 27' is provided on the upper part of the guides 27.
The movable fusing torch 28 is movable in the direction of the arrow e-e' by a drive mechanism 30 such as a hydraulic cylinder attached to the rectangular cylinder body 23 by a mounting member 29. The blade fusing tank 26 is provided with a rectangular funnel-shaped guide 31, and the tip edge of each blade of the control rod B comes into contact with a square of the funnel-shaped guide 31. Crater tip 3
8' is attached to the rectangular cylindrical body 23 by attachment portions 32 so as to reach the vicinity of each blade intersection.

The storage part b has a rectangular cylindrical body 33 as shown in FIG.
The length l (Fig. 2) is at least slightly shorter than the length of channel box A,
A flange 12 is provided at its upper end, and a dross collecting section c is fixed to its lower end.

The dross collecting section c further includes an inclined section c ₁ and a storage section c ₂ for the collection tray 34 , an opening 35 is provided at the top of the inclined section c ₁ , and a lid 36 that opens the opening 35 is connected to a pin 37 . is mounted so as to be rotatable in the direction of arrow f-f'. This opening 35 is for vertically taking out the collection tray 34 from inside the storage section _c2 .

The storage tank 11 configured as described above has a second
Installed in the fuel pool P as shown in the figure,
Each fusing torch 28 , 38 is connected to the plasma arc power supply 13 .

To explain the case of cutting the control rod B in such a state, the control rod B is suspended from a gripping device (not shown) with the speed limiter 4 facing downward, and the control rod B is first cut at the speed shown in FIGS. 3 and 4. The limiter is lowered into the fusing tank 25. When the roller 5 of the speed limiter 4 reaches the guide 27 and is positioned, the movable welding torch 28 is activated to cut the lower part of the cross-shaped blade 3. Next, control rod B is rotated 90 degrees to cut the next blade. By performing these operations in sequence, the speed limiter 4 is disconnected (dotted line in FIG. 1). The cut speed limiter 4 is held by the receiving part 27'' of the guide 27. In this state, the control rod B, which has only the blade 3, is placed in the blade fusing tank 26.
The tubes are moved into the box, lifted up in the same way as channel box A, and sequentially cut by a fixed fusing torch 38 from the upper end toward the lower end. It consists of two members with an L-shaped cross section.

Note that when radioactive metal waste is melted in the storage tank 11, gas containing dust, cutting dross falling into the collection tray 34, and solid matter floating in the water are generated. Dust is radioactive, and if it is released into the atmosphere as it is, it will cause the problem of radiation exposure. Therefore, if necessary, the upper part of the storage tank 11 is covered with a hood, and the inside of the hood is guided to a suction line having a filter.
During the fusing operation, the inside of the hood may be kept under constant negative pressure.

On the other hand, solid matter floating in the water is removed from the outlet along with the water by a pump through an outlet provided at the bottom of the storage part b, filtered by a filter, and then returned to the upper part of the cutting head a. You can do it like this.

In addition, since dross falls and accumulates in the collection tray 34, the lid 36 is opened periodically to remove the dross from the collection tray 34.
It can be recovered by taking it out vertically.

As explained above, according to the present invention, since the cutting head is divided into the speed limiter fusing tank and the blade fusing tank, it is convenient that the control rod can be cut appropriately according to the shape of the parts constituting the control rod. There is.

Moreover, the speed limiter fusing tank is only equipped with a guide for the speed limiter roller and a movable fusing torch, and the blade fusing tank is not only equipped with a guide and a fixed fusing torch, so both have a simple structure. Yes, no other cutting equipment is required.

In addition, since the speed limiter and blade cutting device are integrated only in the cutting head,
The structure of the entire storage tank can be simplified and downsized, making maintenance and inspection easier.

Furthermore, the cutting head only needs to be maintained and inspected intensively, and the storage section and the dross collecting section do not require particularly frequent maintenance and inspection, so the frequency of maintenance and inspection can be reduced.

Furthermore, since the dross collecting section has an inclined section, it is not affected by the cutting head or storage section.
The collection tray stored in the dross collection section can be easily collected.

Of course, the present invention is not limited to these embodiments, and it is clear that various changes can be made without departing from the spirit thereof.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a control rod, and FIGS. 2 to 5 show an embodiment of a storage tank in an underwater cutting apparatus for radioactively contaminated metal according to the present invention.
The figure is an explanatory diagram when the storage tank is installed in the fuel pool, Figure 3 is a plan view showing an example of the cutting head, Figure 4 is a sectional view taken along line E-E in Figure 3, and Figure 5 is the storage tank. It shows a longitudinal cross-sectional view of an inclined portion c that constitutes a part of the tank. 3...Blade, 4...Speed limiter, 5
...roller, 11 ... storage tank, 12 ... flange, 13 ... plasma arc power supply device, 23,
33... Square cylinder, 27, 31... Guide, 38
... Fixed fusing torch, 29, 32 ... Mounting member,
28... Mobile fusing torch, 30... Drive mechanism, 2
4... Partition wall, 25... Speed limiter fusing tank, 26... Blade fusing tank, 34... Collection tray, 35... Opening, 36... Lid, 37... Pin,
B...control rod, a...cutting head, b...storage section, c...dross collection section, _c1 ...slope section, _c2 ...
Tray storage section.

Claims (1)

[Claims] 1. A storage tank into which control rods are fed and cut, the storage tank having a rectangular cylindrical cutting head, a cylindrical storage part that is removable at the lower end of the head and linearly connected to the head; A cylindrical dross collecting section is connected to the lower end of the storage section via an inclined section, and the cutting head is connected to a speed limiter fusing tank and a blade fusing tank by a partition wall in the longitudinal direction of the cutting head. At the same time, the lower parts of the speed limiter fusing tank and the blade fusing tank are made to communicate with the storage section, and the speed limiter fusing tank is provided with a guide for a speed limiter roller and a movable fusing torch, while the blade fusing tank is provided with a guide for a speed limiter roller and a movable fusing torch. is provided with a guide and a fixed fusing torch that the tip of the blade of the control rod comes into contact with, and the movable fusing torch and the fixed fusing torch are respectively connected to a plasma arc power supply device. Structure of storage tank in.