The subject of this invention is a barrel handling device, normally of cylindrical or very similar shape, to grasp barrels, to lift barrels, and if necessary, to inspect barrels,
Certain dangerous waste substances are poured into metal barrels to be stored for long periods of time. This is namely the case for irradiated products of the nuclear industry. Special techniques have been engineered to coat and to vitrify the waste before pouring it into the barrels, which are then held in a storage installation. They may nevertheless be moved at a later date, to be inspected or transported.
Many barrel handling devices have been designed. Said devices include various grasping means such as tongs or clamping jaws which are designed to grab one part of the barrel or another, but which generally present, the inconveniences of failing to provide a tight grip, being too big to be conveniently lowered into storage wells, not being resilient to the oscillating or tilting movements of the barrel once the latter has been raised and furthermore not offering the possibility to inspect the barrel before the latter is grasped and/or once it has been grasped. Yet, if a barrel is torn or cracked, it should not be moved so as to avoid further aggravating any leaks of the dangerous contents; and even if the barrel is intact, the known devices risk being handled inappropriately or dropping, which could result in the possibility of the barrel being broken.
The invention relates to a barrel handling device that unlike the aforementioned devices provides a firm grasp of the barrel, with no risk of the latter being released or being allowed to tilt in any way whilst being lifted. Moreover, the device can easily be fitted with means to enable thorough inspection of the surface of the barrel.
The document EP 0 633 215 describes a handling device which also offers the advantage of providing a good grasp of the barrel by means of tilting fingers that come under the lower periphery of the barrel, which is hence positioned on said fingers when it is lifted, but the positioning of the device around the barrel is far more problematic than with the invention.
In its most general form, the handling device comprises a system for grasping the upper surface of the barrel, at least one moveable arm that can be moved vertically in relation to the grasp system and next to the peripheral surface of the barrel, and a finger fitted under the arm that can be moved under the lower surface of the barrel. Hence, the barrel can first be grasped by its upper surface, slightly raised by the grasp system, the one or several arm(s) (there are usually several) are lowered next to the barrel, the finger is extended below the barrel and provides solid support thereof; the arm counteracts the lateral sliding movement of the barrel; and the grasp system is relieved although it continues to contribute to a stable grasp of the barrel.
Insofar as that to guarantee optimum grabbing results, the grab system comprises a centring mechanism provided with fingers that can be extended radially, for example towards a flange of the upper surface of the barrel. The grasp system is not adhered to the barrel until all of the fingers have touched the flange and have centred it; a favourable consequence is that each arm may be placed at a short distance from the barrel so as to secure it more firmly and ensure that the finger positions itself adequately under the barrel when it moves.
The device can be positioned correctly even if the barrel is difficult to access, at great depths or in a narrow well.
The means of inspecting the barrel may include means located under the arm, as well as means located within the grab system. These means allow to inspect the upper surface of the barrel and to provisionally decide whether it can be raised, said means also allowing to inspect the peripheral surface and then the lower surface of the barrel when the arm is lowered.
The invention will now be described with reference to the figures.
In the embodiment described herein, the barrels are stored in wells 1 slightly larger than themselves.
Sliding units 2 normally closed isolate the wells 1 from the outside but are opened when a barrel needs to be stored or extracted. The device of the invention, which is hence used, comprises in particular a mechanical system which is movable in well 1 and that can lower or lift the barrel, hereinafter referred to as grab 3, as well as a transfer and protection hood 4 that absorbs the radiation emanating from the barrel and that lies on the well 1 opening during the storage or extraction operation. The hood 4 comprises a cavity which is large enough to accommodate the grab 3 loaded with the barrel. Other usual parts of the handling device are not mentioned hereafter. The invention focuses exclusively on grab 3.
The barrels 5 are generally cylindrical in shape and comprise an upper surface 6, a lower surface 7, a peripheral side surface 8; we can also thereof distinguish an upper ledge 48 jutting upwards around the upper surface 6 and which corresponds to the cover bezel in the surface ferrule. The ledge 49 can exist in another form when the cover is screwed on or welded, and can nevertheless provide the same grab centering function.
We are now going to refer to
The ball and socket 12 and the support 10 are suspended from a column 14, itself suspended from a cable 15 manipulated from the outside by means of a strain sensor 16. The column 14 also bears an upper plate 17.
Another element of the grab 3 is a barrel 5 hooking system 18 and which comprises at least one vertical arm 19 (a set of three arms 19 arranged in a circle are shown here, although only one is illustrated) suspended from a movable plate 20. The movable plate 20 slides across the column 14 by means of a recirculating ball screw 21 of which the upper and lower ends are retained in the upper plate 17 and the support 10. A gear motor 22 mounted on the upper plate 17 rotates the recirculating ball screw 21 by means of a belt drive 23. A graduated rule 24 is also mounted between the upper plate 17 and the support 10 parallel to the recirculating ball screw 21, and a position sensor 25 mounted on the movable plate 20 allows to monitor the vertical movements of said plate. The description hereafter refers to
The arms 19 embrace the barrel 5, the radius of their circle being slightly bigger than that of the peripheral surface 8. Their height is also slightly bigger than that of the peripheral surface 8.
A finger 26 fitted under them moves under the lower surface 7 of the barrel once the grab 3 has been completely lowered. The fingers 26 extend between a folded position in which they tangentially stretch out, in the circle of the arms 19, and an active position in which they radially stretch out, under the barrel 5. They are mounted under the arms 19 by hinges 27 which allow them to rotate, and their rotational movement is controlled by means of a rod 28 which extends vertically up to the arm 19, where it ends in a lever 29 that a cylinder 30 rotates by means of a pull rod 31. Said last two elements are mounted on a support referred to as pantile 32, itself mounted on a guide carriage 33, which slides across a guide rail 34 of an appropriate section mounted on the movable plate 20. The pantile 32 and the guide carriage 33 are moved by a cylinder 35. The same device is present for each of the three arms 19, to allow for variation as required of the radius of the circle that they embrace. The grab 3 can hence be lowered into narrow wells or be adapted to barrels 5 of various diameters.
Another element of the grab 3 is a centring device 36 illustrated in
Rotation of the crown 38 operated by the cylinder 37 modifies the orientation of the fingers 39 and the radial position of their outer end. Extension of the fingers 39 continues until all of them touch the ledge 49 of the barrel 5 and until the grasp system 9 and more particularly the barrel 5 hooking system 18 are centred.
Here is how the barrel 5 is grasped when it is in well 1 (the procedure would be identical in other locations). The grab 3 is lowered into well 1 until the grasp system 9 comes up to the upper surface 6. The centring system 36 is switched on, then the suction caps 11 are activated. The grab 3 is slightly raised to lift barrel 5. The hooking system 18 is thence switched on, the arms 19 are extended then lowered alongside the peripheral surface 8, and finally the fingers 26 are extended and the arms 19 are tightened. The barrel 5 is then firmly grasped and can be lifted without risking failure of the suction caps 11. It is to be noted that the fingers 26 hold the inner surface 7 of the barrel 5 if the latter is open and ajar.
An important aspect of the device mentioned hereinabove is the possibility to carry out inspections to decide whether the barrel 5 can be extracted without risk or damage. We will now go back to referring to
Further embodiments of the device are possible. The suction caps 11 can for example be replaced by other electromagnetic or mechanical grasping means. The lighting system can function with micro-lamps or LEDs. The vision system integrated into the arm 19 can be directly integrated into the camera of a video-endoscope.
Number | Date | Country | Kind |
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0350489 | Sep 2003 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR2004/050407 | 9/1/2004 | WO | 00 | 5/12/2005 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2005/028355 | 3/31/2005 | WO | A |
Number | Name | Date | Kind |
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2783078 | Billner | Feb 1957 | A |
3383286 | Paget | May 1968 | A |
3785691 | Sperry | Jan 1974 | A |
4151983 | Stock et al. | May 1979 | A |
4753004 | Fujioka | Jun 1988 | A |
4850627 | Franklin | Jul 1989 | A |
5127692 | Yakou et al. | Jul 1992 | A |
5310304 | Baumgartner | May 1994 | A |
5752729 | Crozier et al. | May 1998 | A |
Number | Date | Country |
---|---|---|
240 449 | Nov 1911 | DE |
36 36 016 | May 1988 | DE |
0 633 215 | Jan 1995 | EP |
Number | Date | Country | |
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20060119117 A1 | Jun 2006 | US |