JPS6331036Y2 - - Google Patents

Description

[Detailed Description of the Invention] This invention relates to a powder filling cylinder used when filling a container to be filled with powder with powder made of nuclear fuel material.

So-called low-enriched uranium dioxide (UO ₂ ) powder with an increased concentration of 235U of 2 to 5% is used as fuel for light water reactors, which are the mainstream of nuclear reactors currently in operation. This low-enriched uranium dioxide powder is produced by, for example, heating and vaporizing low-enriched solid uranium hexafluoride (UF ₆ ), and then hydrolyzing this UF ₆ to form an aqueous solution of uranyl fluoride (UO ₂ F ₂ ). ,
Ammonia is added to this aqueous solution to form a precipitate of ammonium deuterate (ADU), this slurry solution is filtered, the resulting cake is washed and dried, and then ground to obtain ADU powder, which is roasted and reduced. It is produced by the ADU method, which involves roasting, reducing, and pulverizing _UO2 powder.

Conventionally, the method shown in FIG. 1 has been used to fill a container with powder of UO ₂ produced by this method. That is, the UO ₂ powder placed in the hopper 1 is conveyed by the screw feeder 2 to the on-off valve 3, and is passed through the on-off valve 3 and the filling port 4, which is a flexible pipe with flanges at both ends, to be filled with powder. The container (powder container) 5 is filled with the powder.

This powder container 5 is a double cone-shaped steel container with an internal volume of about 750 mm, and has lids 8 at the inlet 6 and outlet 7, respectively.
, and a moving trolley 9 is attached to the lower part,
It is placed on the floor 10.

In addition, the on-off valve 3, the filling port 4, and the inlet 6 are as follows:
It is housed in a food box 12 on a pedestal 11 provided on a floor 10.

Note that the powder container 5 is connected to a scale 13 provided on the floor 10.
The tare bag is placed on the container and the weight of the powder filled inside can be weighed.

However, in such a conventional powder filling method, when the flange of the filling port 4 is attached to and removed from the inlet 6 of the powder container 5, the UO ₂ powder may spill and contaminate the inlet 6 of the powder container 5.

This idea was made in view of the above circumstances, and the powder filling port of the movable cylinder is slidably fitted via a sealing member to the outside of the guide cylinder connected to the powder supply pipe via an on-off valve. is positioned inside a sealing member provided between the container to be filled with powder and the movable tube, facing the entrance of the container to be filled with powder, and the movable tube is moved by the moving mechanism relative to the guide tube, and the powder filling is performed. By attaching a tray to the powder filling port at other times, the powder can be reliably filled without spilling powder into the container to be filled with powder, thereby preventing contamination of the container to be filled with powder. The purpose is to provide.

An embodiment of this invention will be described below with reference to FIGS. 2 and 3. In this embodiment, the same parts as in the conventional example are given the same reference numerals, and the explanation thereof will be omitted.

Reference numeral 21 in FIGS. 2 and 3 is a connecting pipe, and this connecting pipe 21 has upper and lower flanges 22 and 23, and is connected to the lower part of the on-off valve 3. Connecting pipe 2
A flange 24 is fixedly provided at the midsection of the body 1. A guide cylinder 25 is coaxially and fixedly attached to the lower part of the connecting pipe 21. The guide tube 25 has a smaller diameter than the connecting tube 21 and communicates with the connecting tube 21.

In addition, at the bottom of the connecting pipe 21, there are flanges 2 on the top and bottom.
A telescopic flexible pipe 28 having pipes 6 and 27 is connected. This flexible pipe 28 has approximately the same diameter as the connecting pipe 21, and the guide tube 25
It is fitted with a space provided on the outside. The flange 27 of the flexible pipe 28 is the flange 2
It is attached to the piston rod 30 of a plurality of cylinder mechanisms (moving mechanisms) 29 attached to the piston rod 4.

Further, a movable cylinder 31 disposed inside the flexible pipe 28 is located outside the guide cylinder 25 and a sealing member 3
2 and are slidably fitted together. Moving cylinder 3
The outer diameter of the flexible pipe 28 is slightly smaller than the inner diameter of the flexible pipe 28.

The seal member 32 is fixed to an inner flange 33 formed at the upper end of the movable cylinder 31 and tightly fitted into the guide cylinder 25. Further, a flange 34 is integrally provided at the lower part of the outer peripheral surface of the movable cylinder 31. This flange 34 is fixed to the lower surface of the flange 27 at the lower part of the flexible pipe 28 by bolting. A sealing member (ring seal) 35 is attached to the lower surface of the flange 34 at the lower part of the movable cylinder 31. Furthermore, arc-shaped strip plates 36 are provided at three locations on the outer circumference of the flange 34 so as to protrude from the flange 34. When the movable cylinder 31 is not engaged with the powder container 5, the inside of the powder container 5 and food box 12 are prevented from being contaminated by falling powder from the movable cylinder 31.
A tray 37 is tightly fitted into the ring packing 35, and the tray 37 is attached to the lower part of the movable tube 31 by hooking the hooks 38 attached to three places on the outer periphery of the tray 37 to the arcuate strip plate 36. There is.

On the other hand, at the inlet 6 of the powder container 5, when the lid 8 is removed, a receiving plate 39 is placed on the flange 5a via a packing 5b. This receiving plate disc 39 is composed of a flange 40 having a larger diameter than the outer diameter of the flange 34 of the movable cylinder 31 and an insertion cylinder part 41 that can be inserted into the inlet 6 of the powder container 5.

When filling powder into the powder container 5, the sliding door (not shown) at the bottom of the side plate of the food box 12 is slid open so that the flange 5a of the powder container 5 enters, and the movable tube is opened. The powder container 5 is positioned directly below the food box 31, and the sliding door is closed to seal the food box 12.

Next, put your hand into a glove (not shown) provided in the food box 12, remove the lid 8 of the inlet 6 inside the food box 12, and insert the insertion tube 41 into the inlet 6 of the powder container 5. A receiving plate board 39 is placed on the packing 5b on the flange 5a.

Next, remove the hook 38 from the arcuate strip plate 36,
The tray 37 is removed from the movable cylinder 31, and then the cylinder mechanism 29 is operated to extend it. As a result, the movable cylinder 31 descends, and the flange 34 presses the ring packing 35, and the ring packing 35 presses the receiving plate disc 39 and the packing 5b on the flange 5a. Here, cylinder mechanism 2
Stop 9. Thereby, the lower end of the movable cylinder 31 is inserted into the insertion cylinder part 41 of the receiving plate board 39.

Next, open the on-off valve 3 and screw feeder 2.
Activate. As a result, the powder in the screw feeder 2 passes through the on-off valve 3, and the connecting pipe 21, the guide cylinder 25, the movable cylinder 31, and the insertion cylinder part 41 of the receiving plate board 39.
The powder is then filled into the powder container 5.

Next, it is confirmed by the scale 13 that a predetermined amount of powder has been filled, and then the screw feeder 2 is stopped and the on-off valve 3 is closed. Next, the cylinder mechanism 2
Reduce 9. As a result, the movable cylinder 31 rises and stops at a predetermined position. Here, the arcuate strip plate 36
hook 38 to the lower part of the movable tube 31.
Attach 7. This allows the powder to be transferred to the powder container 5.
It will not fall onto the food box 12 or scatter into the food box 12. Incidentally, the powder that has fallen onto the receiving plate board 39 is sucked up by a suction hose (not shown).

Next, the receiving plate 39 is removed from the inlet 6 of the powder container 5, and the lid 8 is attached to the inlet 6. Next, the sliding door of the food box 12 is opened and the powder container 5 is taken out from under the movable cylinder 31.

As explained above, according to this invention, the powder filling port of the movable cylinder, which is slidably fitted via the seal member to the outside of the guide cylinder connected to the powder supply pipe via the on-off valve, is connected to the powder supply pipe. The movable cylinder is positioned inside a sealing member provided between the container to be filled and the movable cylinder so as to face the entrance of the container to be filled with powder, and the movable cylinder is moved with respect to the guide cylinder by a moving mechanism, except when filling the powder. Since the tray is attached to the powder filling port, it is easy to attach and detach the powder to the powder container.
This makes it possible to fill the container with powder without spilling the powder, which not only prevents contamination of the container with powder but also reliably prevents powder from leaking to the outside. ,
It has great industrial application effects.

[Brief explanation of the drawing]

Fig. 1 is a side view showing an example of a conventional powder filling cylinder, Fig. 2 is a side sectional view showing an embodiment of this invention, and Fig. 3 is a side view showing the state in which the powder filling cylinder is attached to a powder container. FIG. 3... Opening/closing valve, 5... Container to be filled with powder (powder container), 6... Inlet, 25... Guide tube, 28... Flexible pipe, 29... Cylinder mechanism (moving mechanism), 31... Moving tube , 32... Seal member,
35... Seal member (ring seal), 37...
...Bon, 39...Receiver board.

Claims (1)

[Claims for Utility Model Registration] (1) A guide tube connected to the outlet of the powder supply pipe via an on-off valve, and a guide tube coaxially and slidably fitted to the outside of the guide tube via a sealing member. , a movable cylinder with the powder filling port facing the inlet of the container to be filled with powder so that the powder filling port is located inside a sealing member provided between the inlet of the container to be filled with powder, and the moving cylinder; a moving mechanism that is connected to the guide tube and slides the movable tube with respect to the guide tube through a sealing member provided between them; and a tray that is detachably attached to the powder filling opening of the movable tube. A powder-filled cylinder characterized by: (2) The powder filling cylinder according to claim 1 of the utility model registration, characterized in that a flexible pipe is provided to cover the guide cylinder and the movable cylinder while allowing movement of the movable cylinder. . (3) A receiving plate into which the powder filling opening of the movable tube fits is interposed between the powder filling opening and the powder filling container to fill the powder into the powder filling container. A powder filling cylinder according to claim 1 of the registered utility model characterized by: