DE2951375C2 - - Google Patents

Abstract

1. Device for immobilizing in concrete radioactive wastes in waste drums, with the ingredients of the mixture being filled into the drum and concrete being produced directly after mixing of those ingredients in that drum ; with a shielded and alpha-tight cell to which the feed opening of the empty drum can be connected by means of an opening in the cell floor, which opening can be closed by means of a double lid, which can be swung out of the way ; with a hollow shielding cylinder extending into the cell from the top, the interior of which accommodates the mixing tools after their withdrawal from the drum, and from which they can be lowered into the drum for mixing and lifted back into the cylinder, respectively ; with a shielding plate (6) installed in the cylinder (2) in a vertical sliding bearing so that its top is sealed relative to the cylinder (2), which plate holds the driving mechanism (8, 9) for the mixing tools (3) ; with another driving mechanism (10) attached to the plate (6), by means of which a central section (7) turning in the plate (6) and accommodating the bearing fixture of the mixing tools can be turned around its center axis (17) ; with the guide ring (22) constituing the upper extension and bearing fixture of the plate (6) holding one end (30) of a bellows (13) around the driving mechanism, the other end (31) of which bellows is indirectly connected to the wall of the cell (1) and to the base plate (34), respectively, supporting the cylinder (2), the bellows (13) being attached to the upper inner rim (32) of a hollow sheet metal cap (33) open at the top and resting on the base plate (34) ; and with lifting elements (11) for lowering and lifting, respectively, the plate (6) holding the mixing tools (3), wich are located above that plate, i.e., outside the shielding opposite the contaminated interior (27) of the cell (1).

Description

The present invention relates to a device for Concreting radioactive waste into waste barrels according to the preamble of claim 1. Such a direction is already known from DE-OS 26 37 858.

The concreting or cementing of liquid and solid radioactive waste with the aim of fixing this waste cases of cement in so-called cementation or concrete plants is an essential part of disposal radioactive waste. The previously known systems have before all the disadvantage that essential mechanical components these parts turn out to be alpha contaminated and high Exposed room are located. This arrangement has Consequence that be the system with very low radiation exposure can be driven, but at repair and maintenance high radiation dose rates may arise.

Attempts have now been made to do all possible repair and maintenance work with the help of manipulators and other remote operating facilities. The freedom of movement however, these facilities are very limited, so larger ones Work can not be carried out, or installation of complicated and expensive electrical force manipulators presuppose.

The object of the present invention is now a simple one and safe to handle facility for concreting or To create radioactive waste in barrels, in which radioactive substances such. B. ion exchanger Resins, sludges and concentrates can be fixed in the Maintenance and repair work also accelerated during the Operation can be carried out without maintenance and repair work impermissibly high dose rates occur, to increase the availability of such a system.  

The facility according to serves to solve this task Claim 1.

The present invention now enables it in front geous way, a concreting or cementing device create in which contamination-protected parts from Modu len that can be easily installed and removed be used. These modules, such as. B. the agitator drive and the double lid drive, can be outside of the contaminated th and radiating area under normal conditions serviced and repaired. So the downtime Such a facility significantly reduced. That is, the Ver Availability and economy of the facility is increased, and also significantly reduced radiation exposure during interventions. The necessary working hours for decontamination are ver wrestles. It is possible to use individual components in the form of to manufacture individual modules that can be switched on and off at will can be built so that a much simpler and safe operation can be driven.

Further details of the present invention are given in the following with reference to the figure:

Cementing or concreting radioactive waste basically takes place in a known manner (cf. DE-OS 26 37 858) in which dry cement is placed in a waste drum. This waste barrel is closed with the lower part of a double lid and against a hot cell or alpha-tight table Glove box pressed. The barrel is now using a  Double lid system opened, and in its free opening with means of a hose or a tube of radioactive material added. At the same time, the barrel becomes counter-rotating working planetary stirrer retracted, the dry Cement mixed with the concentrate. It is from particular disadvantage that the entire agitator san as well as the lifting device and rotating device for the The agitator is in the highly contaminated cell.

Now is connected to the shielded cell 1 via the opening 16 in the base plate 27 , which is closed in the ge-designated position with the upper part 15 of a double lid, a waste barrel, not shown, with pre-metered cement. In cell 1 , the radioactive waste is then introduced into the barrel and mixed using the device described below, ie a barrel mixer that can be lowered into the barrel, in the barrel. The actual mixing device is now structured as follows:

In a shielded cell 1 , a shielding tube 2 is flanged out from above. In this shielding 2, the stirring tools 3 are located in the rest position, which are shielded by a removable splash plate 4 upwards against the clutches. 5 In the tube, a shield plate 6 is movably guided from top to bottom, the middle part 7 is provided with bushings for the agitator drive and the middle part 7 is rotatably arranged with the help of bearings in the shield plate 6 . The actual agitator drive 8 or 9 is located above the central part 7 . The fixed part of the planetary drive is connected to the shield plate 6 and the movable part of the same with the central part 7 , so that the parts 8 and 7 can rotate and move in the same direction. In this way, the stirring tools 3 by rotating the central part 7 together perform a circular movement about the axis 17 . The agitation tools are driven by the agitator drive 9 . At the drive of the planetary ring or the rotation of the central part 7 takes place via a geared motor 10 .

The entire unit, ie the agitators 3 with a complete drive, can be moved up and down within the tube 2 with the aid of lifting cylinders or lifting spindles 11 , so that the mixer 3 dips into the barrel (not shown ) and performs a mixing movement about the axes of the mixing tools 3 and is guided together through the barrel in a circular motion. The shielding tube 2 with the complete unit can also be pulled out of the shielded cell 1 for maintenance purposes. To guide the unit in the tube 2 is the sliding guide ring 22 therein, which is firmly connected to the shield plate 6 .

The sealing of the plate 6 with respect to the pipe 2 can now be carried out in two ways: in the first embodiment, not shown, only a very small air gap is provided between the plate 6 and the pipe 2 . Due to the pressure drop between the space outside of cell 1 and the interior 24 of cell 1 , no radioactivity can be carried outside, ie outside of cell 1 . However, this air curtain is only sufficient for low activity and is not sufficient in the event of contamination by alpha emitters. Therefore, during high activities with a high proportion of alpha emitters according to the illustrated embodiment on the shielding plate 6 or on the ring 22, a bellows 13 be fastened, which is pushed together at top dead center and pulled apart at bottom dead center. This bellows 13 sits with its lower end 30 on the guide ring 22 and with its upper end 31 on the inner edge 32 of a hollow sheet metal hat 33 which is open at the top. The sheet metal hat 33 in turn sits with its foot on a base plate 34 which is placed on the top of the cell 35 and directly carries the cylinder 2 down . The bellows 13 in the sheet metal hat 30 now encloses the entire drive 8, 9, 10, 11 of the mechanical device. Since the hat 30 is open at the top, this entire drive 8, 9, 10, 11 can be removed or pulled out of the hat opening 35 after detaching from the plate 6, 7 without affecting the shielding effect.

In order to prevent the liquid cement broth possibly still adhering to the agitating tools 3 from dripping onto the pivotable Doppeldec angle 15 and its clamp 26 , this or its pivot arm 28 is provided with a removable plate 14 which is in the closed position of the double cover 15 is located under the stirring tools 3 . If the plate 14 is filled with dried cement broth, it is thrown into the waste barrel below through the opening 16 and added to the waste. The pivotable double cover 15 , like the agitator drive, is designed such that all drive elements are located outside of the cell 1 , namely under the base plate 27 of the cell 1 . The rotary drive 18 and the lifting drive 19 for the double cover 15 , which can be pivoted on the arm 28 about the axis 29 , is located under the cell 1 and can be serviced there at any time. The same is done by indexing the closed position of the double cover 19 by means of an indexing 20 which is located outside the cell space 24 . In this way, all drive elements on which malfunctions and maintenance work can occur can be serviced and repaired from the outside in uncontaminated rooms.

In the new device proposed by the invention, the actual stirring drive is thus outside the contamination area and is protected by the plate 7 designed as radiation protection against the work area or the interior space 24 of the cell. Another new feature is that the agitator drive in the shielded tube 2 moves up and down who can and that the lifting elements are outside the contaminated and radiating space 24 . The entire drive part is protected from contamination by the bellows 13 . It is favorable that in the event of a major defect, the entire drive, including the stirring tools 3 , can be removed from the interior 24 of the cell 1 by pulling out the entire unit in the tube 2 and can be transported to another space arranged therefor. The unit can then be replaced by a reserve unit. The entire unit is held or centered in its bottom dead center or in the retracted state by means of the guide bolts 12 such that twisting and vibrating is impossible during operation. The actual double lid 15 is protected by the drip plate 14 against contamination by dripping cement broth.

• 1 shielded cell
  2 shielding tube
  3 mixing or stirring tools
  4 splash panel
  5 clutches
  6 shielding plate
  7 middle section
  8 rotating agitator drive
  9 agitator motor
  10 gear motor
  11 lifting cylinders
  12 guide bolts
  13 bellows
  14 plates
  15 double lids
  16 opening
  17 axis
  18 rotary drive
  19 linear actuator
  20 indexing
  22 guide ring
  23 upper room
  24 cell interior
  25 interior surfaces
  26 parenthesis
  27 Cell base plate
  28 swivel arm
  29 swivel axis
  30 lower end of the bellows
  31 upper end of the bellows
  32 inner edge
  33 tin hat
  34 base plate
  35 hat opening

Claims (9)

1. facility for concreting radioactive waste into waste barrels,

• - the mixture components are added to the barrel in measured proportions,
• - and the concrete formation after mixing by means of mixing or stirring tools ( 3 ) which can be lowered into the waste drum takes place directly on the same,
• - with a shielded and alpha-tight cell ( 1 ),
• to which the loading opening of the empty barrel can be connected by means of an opening ( 16 ) in the base plate ( 27 ) of the cell ( 1 ),

characterized,

• - that from the top of the cell (1) protrudes forth a hollow shield tube (2) in the cell (1),
• - In the interior of the mixing or stirring tools ( 3 ) are when they are pulled out of the barrel,
• - And that the mixing or stirring tools ( 3 ) for the mixing process down into the barrel from the shielding tube ( 2 ) can be lowered or raised back into it.

2. Device according to claim 1, characterized in

• - That a shielding plate ( 6 ) is mounted in a vertically sliding manner in the shielding tube ( 2 ),
• - On which the drive ( 8, 9 ) for the stirring tools sits.

3. Device according to claim 2, characterized in

• - That a further drive ( 10 ) sits on the plate ( 6 ),
• - By means of which a central part ( 7 ) receiving the mounting of the mixing tools and rotatably mounted in the plate ( 6 ) can be rotated about its central axis ( 17 ).

4. Device according to one of claims 1 to 3, characterized in

• - That the lifting elements ( 11 ) for the lowering or lifting movement of the mixing tools ( 3 ) holding plate ( 6 ) above half of the same, ie outside the shield against the contaminated interior ( 24 ) of the cell ( 1 ) are ge.

5. Device according to one of claims 2 to 4, characterized in

• - That on the, the upper extension and storage of the plate ( 6 ) forming the guide ring ( 22 ) a drive enclosing bellows ( 13 ) is fixed at one end ( 30 ),
• - The other end ( 31 ) is indirectly connected to the wall of the cell ( 1 ) or to the base plate ( 34 ) carrying the cylinder ( 2 ).

6. Device according to claim 5, characterized in

• - That the bellows ( 13 ) on the upper inner edge ( 31 ) of a hollow, on its upper side open sheet metal hat ( 33 ) is attached,
• - Which sits on the base plate ( 34 ).

7. Device according to one of claims 2 to 6, characterized in

• - That the entire, above the plate ( 6, 7 ) located drive ( 8, 9, 10, 11 ) up through the opening ( 35 ) of the hat ( 33 ) while maintaining the shielding effect of the cell ( 1 ) off or degradation is.

8. Device according to one of claims 1 to 7, characterized in

• - That the drive elements ( 18, 19 ) for the pivoting and lifting movement of the double cover ( 15 ) below the cell bottom ( 27 ) ie also outside the shielding of the cell ( 1 ) are located.