DE1539775C - Transport containers for radioactive objects - Google Patents

Description

The invention relates to a transport container for radioactive objects with a resistant, a jacket filled with a heavy shielding compound through which a central hole passes, with a stopper at the lower opening of the central bore, with a stopper at the upper opening of the central bore, with a sleeve passing through the upper opening of the central bore coaxially is insertable into this and arranged slidably along the axis of the central bore, and with a removable stopper for sealing the opening of the sleeve.

A transport container of this type is already known from French patent specification 1311346. From this patent specification it is known beyond the generic term mentioned at the beginning to provide a lining made of heavy material in the end of the sleeve opposite the sleeve opening Objects from a cell ao into the container without interruption of the y- shielding, but not an uninterrupted α-shielding, since the sleeve that holds the radioactive objects is tightly closed by a stopper only inside the transport container. The known transport container does not have any Means to enable a direct tight connection with an α-shielding of the cell, so that during the introduction of radioactive objects into the transport container the area of the upper opening and the central bore are contaminated by particles emitting α-rays can rden.

From the French patent 1 351 440 a transport vessel is also known in which the Stopper is attached to a boat containing the radioactive objects, which in turn can be introduced coaxially into the opening of the transport vessel and with a locking device cooperates in such a way that in a first spatial arrangement of the locking device the stopper and the transport vessel are firmly connected to one another and in a second spatial arrangement the locking device, the stopper and the transport vessel are detachable from one another. One Contamination by particles emitting α-rays is also found in that of the French patent 1 351 440 known transport container is not switched off, if not the one to be used in it, the Can containing radioactive objects tightly closed from the outset and externally decontaminated is. However, this would again require special facilities and procedural steps In this known transport container, there is also no uninterrupted shielding at all Pages guaranteed, as the radioactive object when the closure part is lifted from the container is lifted out of the shield and a shield by the closure part only after is given to one side.

The invention is therefore based on the object of a transport container from the French Patent 1311346 known type, which a Shielding of the y-radiation of the transported radioactive object by absorption of this Radiation by means of a heavy material as well as a «shielding by maintaining a having absolute sealing, in such a way that the container is able to transfer the radioactive objects from the container into a hot cell that has an α-shielding, or from a hot cell into the container without breaking the α and ^ shielding.

This object is achieved according to the invention in that the stopper is also located on the sleeve Sleeve coupling devices and with cell coupling devices located on a hot cell closure cooperates in such a way that intei maintaining a tight connection of the Sleeve to a tight chamber of the hot cell in a first spatial arrangement of the plug and the sleeve coupling device of the plug and the sleeve firmly connected to each other and in a second spatial arrangement of the plug and the sleeve coupling device of the plug with the Closure is firmly connected and detachable from the sleeve and that also the upper end of the sleeve Has sealing part with three differently inclined sealing planes, the first of which on the the upper end of the sleeve, the second with the outer surface of the plug and the third with the outer surface of a connecting ring can cooperate, the opening of a sealed chamber of the hot cell on the outside of the tight chamber surrounds the seal between the sleeve and to ensure the plug or between the sleeve and the connecting ring.

The transport container having the invention thus enables its shielding compound to be separated from one another with the shielding wall Cell to connect so that the y-shielding is not interrupted, and on the other hand its α-shielding to be connected by a double door system with the α-shielding of the cell, so that the α-shielding remains uninterrupted before, during and after the transfer. That way will certainly any α-contamination of the area around the opening of the transport container and its Central drilling prevented.

In an advantageous development of the transport container having the invention, there is Closure element made of a plug with a square thread, which is inserted into one in the shielding compound can be screwed transversely to the central bore shaft, which is limited by a threaded connector is.

This closure member enables the sleeve to be completely fixed and therefore to avoid it damage to them as a result of impacts or any external protrusion. This Locking device can be operated with the help of a simple key.

The transport container having the invention is in particular for transport and transfer of irradiated nuclear fuel elements of great length and small diameter, especially of Elements with particularly high performance, such as those produced by the circulation of liquid metal cooled fast reactors.

Further advantageous embodiments of the transport container having the invention result from the remaining subclaims.

On the basis of the figures, the one exhibiting the invention Transport container explained in more detail using an exemplary embodiment.

It shows

F i g. 1 shows a section through the assembled container along an axis running through the bore axis Level,

Fig. 2 is a partially sectioned partial view of the in Fig. 1 shown container, wherein the sealing device of the sleeve is shown,

F i g. 3 is a partial view showing the attachment of the actuating rod for the sleeve for transferring a fuel element contained therein between the transport container and a high activity cell ^;

Fig. 4 is a partially sectioned partial view in enlarged scale, in which the parts of a high activity cell are shown, which during coupling this cell to the transport container for transferring a fuel element between the The container and the cell, and

Fig. 5 is a fragmentary, partially sectioned view, on an enlarged scale, showing the components of the sealing device in the arrangement they occupy during transfer between the transport container and a cell for high a- and 7-activity.

The transport container shown in Fig. 1 Λ, in hereinafter referred to as the container, is intended to hold fuel elements with a maximum length in of the order of magnitude of 800 mm and a lower diameter of 70 mm with complete α-shielding, which includes a complete seal, and include a / -shield, which corresponds to a lead layer of 25 cm in all directions. The container ^ has a cylindrical outer jacket 10, which in a hemispherical rear hood made of hard Metal (e.g. steel) ends. The front surface of this shell presents a frusto-conical inlet cap , the meaning of which is explained in more detail below. On the projection 12 is a hemispherical protective dome 14 of similar shape like that located at the rear end of the jacket 10 adapted. To handle the container are Rings 16 or the like. Provided.

A stepped tube 18 is attached to the jacket 10 and is arranged along the axis of the container. The front, large-diameter end of this tube 18 opens into a shaft, which of a threaded connector 20 for receiving a closure member 22 with a square Thread is limited, which is referred to in the following with the term "slide". This slide is made of bronze, for example. There is also a front plug in the axis of the hole 24 and a rear plug 26 are arranged. A cap 28 locks the front plug during of transport, while the rear plug is attached by any means not shown. A The plug 30 covers the slide 22 and engages over the same in order to ensure / shielding. The space between the jacket 10 and the tube 18, the slide 22, the front plug 24 and the bottom of the protective dome 14 is occupied by heavy material, generally lead, which is poured.

The three plugs, which are generally made of cast steel, are designed so that they do not can accommodate the metal-plastic seals shown, which can withstand a temperature of 800 ° C, to maintain the seal of the container and to add an additional (^ shielding ensure by replacing the normal seals, if they are due to excessive Heating will be destroyed. This arrangement therefore ensures absolute security.

The container has a sleeve 34 which is arranged in the stepped bore 32 of the tube 18 is. This sleeve 34 (FIG. 2) has a front, tubular part for receiving a shuttle 36, which will be described in more detail later, as well as a full one opposite this receiving part rear part with a smaller diameter than the front part, which is lined with lead 40 is provided for / shielding. This rear part ends in a support surface, which follows is described in more detail. The shuttle 36 consists of a part of its outer circumference open tube, the front of which is formed by a plug 38 made of steel.

The sealing device of the sleeve 34, which during normal operation to ensure the α-shielding is shown in FIG. This device has an elastic one at the front end of the sleeve Sealing part 46 with three different sealing levels, of which the first on the upper End of the sleeve 34 rests, the second with the outer surface of the plug 38 and the third with the Outer surface of a connecting ring 68 can cooperate.

The front end of the sleeve also has at the level of the sealing part 46 four lips 42 offset from one another by 90 °, each of which extends over an arc angle of the order of 30 °, with four inwardly directed sleeve coupling devices 44 in the same directions as these lips comparable circumferential extension are provided. In the transport position, the shuttle 36 is arranged so that four lips 48 on the plug 38 with the sleeve coupling devices 44 (Fig. 2) are in engagement, whereby the shuttle is held against longitudinal displacement in the sleeve and the sealing of the same at the level of the sealing part 46 is guaranteed. The axial displacements of the sleeve 34 itself are prevented by the slide 2 and their rotation is prevented by a slidable wedge connection 50 (FIG. 2) .

The rear part of the sleeve 34 has a hanging mechanism which is used to receive a Actuating rod 52 is used, which can be inserted through the rear receiving opening of the tube 18, if the plug 26 is removed. F i g. 3 shows the rear part of the sleeve 34, which with a projecting edge 54 provided with a slight angular extension and by an axial blind bore 56 for receiving the actuating rod 52 and a locking bore 58 is penetrated. The Acti supply rod 52 in turn has a connector 60 which is provided with a suspension head 61, wherein a ring 62 is slidably wedged on the connecting piece 60, with a pin 64 for fixing against Rotation is provided. The introduction of the operating rod 52 according to the arrow / and the following Rotation by a quarter turn, causing the suspension head 61 in the dash-dotted lines shown position comes, as well as the following entry

pressing the ring 62 sets the sleeve 34 on the actuating rod 52 completely.

The container described for example can be coupled to a cell for high activity without interrupting the α or / shielding, as shown in FIG. 4 is shown. This cell has a wall made of absorbent material for / shielding, in which a recess 84 is arranged, the shape of which corresponds to that of the support surface 12 of the container A. If this is not available, a detachable ring with an appropriate shape can be provided.

This recess 84 is centered over a known keg locking mechanism which is not must be described further.

In the interior of the wall, a sealing rim 66 is arranged for α-shielding, which from one i Opening is penetrated, which is coaxial to that which is in the closure mechanism of the wall is recessed when it is open. In this opening, a connecting ring 68 is provided, which of a threaded socket 70 is held, the sealing of the connection by sealing rings 72 or is guaranteed by welding.

The connecting ring 68 is normally closed by a device which corresponds to that . speaks, with which the sleeve 34 of the container A 'is equipped. This device has a closure 38 'which corresponds to the stopper 38 in FIG. 2, partly not in section in FIG. 4 is shown .. and has four lips 48 'which can be inserted behind four projections 44' of the connecting ring 68, and four lips 74 'which are offset from the lips 48' by 30 ° and behind the corresponding projections 74 of the Plug 38 can engage to fix the plug 38 and the closure 38 'to one another. Finally, the connecting ring 68 also has four projections 42 ', which are offset by 30 ° with respect to the projections 44' and serve to receive the lips 42 of the sleeve 34. The closure 38 'has a seal 46' with three differently inclined sealing planes and thus a triple effect, which cooperates with the connecting ring 68 and / or with the plug 38 of the shuttle 36. '

The method for transferring an irradiated nuclear fuel element between the boat 36 of the container and the interior of a high-activity cell, which may have a strong α-contamination, can be derived directly from the preceding description and is therefore only described in summary. The container A is brought into the plane of the recess 84 of the cell, then the protective dome 14, the front stopper 24 and the upper stopper 30 are removed. The support surface 12 of the container A is inserted to the bottom of the recess in order to ensure its central arrangement, and then the container is fixed.

The next step is that the sleeve 34 is fixed with its holding device 52, 60. the The rear stopper 26 is lifted off, the actuating rod 52 in the position shown in FIG. 3 arrangement shown in the blind hole 56 introduced, then rotated by 90 ° to the suspension head 61 on the projection 54 of the Bring sleeve 34 into engagement. The ring 62 is then pressed in in order to grasp the pin 64 and to fix the operating rod against rotation with respect to the sleeve. This process requires that the sleeve 34 through the slide 22 against Displacement and is fixed by the sliding wedging 50 against rotation. It is therefore essential that the engagement of the operating rod is carried out with the slide pressed in.

The slide 22 is then lifted off and the holding and actuating device 52, 60, 61, 62, 64 pressed in to the arrangement consisting of the sleeve and the shuttle 36 carried by this to advance until the plug 38 comes into contact with the closure 38 ', whereby the connecting ring 68 is closed for the α-shielding of the cell. To avoid excessive overhang, can a ring 80 can be provided for temporary guidance, which is shown in FIG. 4 in dash-dotted lines is shown.

When the plug 38 and the closure 38 'are brought into contact, the sleeve is wrapped around a Angle of about 30 ° with the help of the operating rod 52, 60, 61, 62, 64 rotated. This change of direction simultaneously calls for the protrusions 74 'of the closure 38' to engage the lips 74 of the plug 38 and the engagement of the locking lips 42 of the sleeve with the projections 42 'of the connector ring 68. The sleeve is thereby fixed on the connecting ring, the connection between the connecting ring and the sleeve is sealed by the sealing member 46 with a triple action. The plug 38 and the shutter 38 'are also secured to one another, with the contact surfaces against α-contamination during the subsequent process steps by the triple-acting seal 46 ' are protected.

It is therefore sufficient to use an actuating device (not shown) to actuate the actuating handle 82 of the closure 38 'and to turn the same further through an angle of about 30 ° to the closure 38 'and the plug 38, extended by the shuttle 36, from the sleeve 34 and the connecting ring 68 to separate, and then with the help of the actuating device, the shuttle 36 into the interior of the Pushing the high-activity cell in order to make the fuel element contained in the boat accessible, as shown in FIG.

The reverse operations to those described above make it possible to restore the sealing of the container A and the cell after they have been separated, with α-contamination only being able to occur on the shuttle, in the sleeve and on the stopper 38.

Claims (5)

Patent claims: 1. Transport container for radioactive objects with a resistant, from one heavy shielding compound filled jacket, supported by a; Central hole is interspersed with a closure plug at the lower opening of the central bore, with a closure member the upper opening of the central bore, with a sleeve passing through the upper opening of the central bore is coaxially insertable into this and arranged to be slidable along the axis of the central bore, and having a removable plug for sealing the opening of the sleeve thereby characterized in that the plug (38) with sleeve coupling devices located on the sleeve (34) (44) and with a lock (38 ') of a hot cell located cell coupling devices (74 ') cooperates in such a way that while maintaining a tight connection of the sleeve (34) to a tight chamber (66) of the hot cell in a first spatial arrangement of the plug (38) and the sleeve coupling device (44) the plug (38) and the sleeve (34) firmly connected to one another and in a second spatial arrangement of the plug (38) and the sleeve coupling device (44) of the plug (38) with the Closure (38 ') is firmly connected and detachable from the sleeve (34), and that also the upper At the end of the sleeve (34) a sealing part (46) with three differently inclined sealing planes has, of which the first rests against the upper end of the sleeve (34), the second with the outer surface of the plug (38) and the third with the outer surface of a connecting ring (68) can cooperate, the opening of an ao tight chamber (66) of the hot cell on the Outside of the sealed chamber surrounds the seal between the sleeve (34) and the To ensure plug (38) or between the sleeve and the connecting ring (68). 2. Transport container according to claim 1, characterized in that the plug (38) has a radioactive objects receiving boat (36) is attached that in turn by the Opening of the sleeve (34) can be introduced coaxially into this. 3. Transport container according to claim 1 or 2, characterized in that the closure member consists of a plug (22) with a square thread, which is inserted into one of the shielding ground transversely to the central bore (32) extending shaft can be screwed, which is limited by a threaded connector (20). 4. Transport container according to one of claims 1 to 3, characterized in that the Central bore (32) and the sleeve (34) are stepped and that the sleeve opening opposite, a smaller diameter having end of the sleeve a liner (40) made of heavy material. 5. Transport container according to one of claims 1 to 4, characterized in that the the sleeve opening opposite end of the sleeve means (54, 56, 58) which with a holding device (52, 60, 61, 62, 64) cooperate, which the sleeve (34) against displacement and rotation secured. For this purpose 2 sheets of drawings 109 524/30