Receptacles – Sectional – Folding
Reexamination Certificate
1999-11-02
2002-09-10
Young, Lee (Department: 3727)
Receptacles
Sectional
Folding
C220S004280, C220S004290, C220S004310
Reexamination Certificate
active
06446824
ABSTRACT:
The invention relates to the field of air freight, in particular to the freight units to be used in this sector. Goods for air freight are usually tendered as individual packages. On the other hand, it is necessary to pack the freight together to form larger units, which it must be possible to handle efficiently using fork lift trucks and the like.
Pallets which provide room for a number of freight packages are already used in this context. The freight packages are stacked on the pallet as regularly as possible, after which the stack is covered by a net which is attached firmly to the edges of the pallet.
Although the use of these pallets already results in a certain gain in loading time and ease of use, there are nevertheless still various disadvantages associated with this. For instance, it is not readily possible, for example, to stack two laden pallets on top of one another. Furthermore, the freight packages are not well or adequately protected against the effects of weather, which is a disadvantage when loading or unloading an aircraft in the open air.
Up to now, however, this method of loading has been accepted, if only because the weight of the loading aids, such as pallet and net, is not too high. Furthermore, the unloaded loading aids must not take up an unnecessarily large amount of space for transport. However, the abovementioned problems, such as the lack of stackability, are becoming increasingly pressing.
The aim of the invention is, therefore, to provide a better and more efficient aid for air freight which, on the one hand, offers better protection for the air freight packages and which, on the other hand, does not weigh too much or take up too much space. To this end the invention relates to a loading unit for air freight, comprising a loading base, upright walls on the loading base and a flat cover on the upright walls, which walls are detachably joined to the loading base and the cover and at least two walls being joined to one another to form at least one self-supporting wall unit.
The detachable walls have the advantage that the empty loading unit can be transported as a small pack. To this end the loading base preferably has slots, in which the walls can be accommodated, around at least part of its periphery. The cover also has slots, in which the walls can be accommodated, around at least part of its periphery.
The loading base and/or the cover have upright edges which can be placed directly one on top of the other. The edges are of a height such that the detached walls can be accommodated between base and cover positioned one on top of the other.
The walls can be joined to one another to ensure good coherence of the walls and thus a sufficiently high strength of the loading unit on stacking. These joins provide a self-supporting wall unit, which wall unit can comprise all four walls. Such a wall unit has adequate load bearing capacity to be able to support a further stacked loading unit without corner columns being required for this purpose. The advantage of the loading unit according to the invention is therefore that the number of component parts remains limited. A block-shaped or cube-shaped loading unit can consist of a maximum of six separate parts, that is to say the loading base, the cover and at most four separate walls. The four walls can, however, form an integral unit, as a result of which there would be only three separate parts.
The consequence of this is that the loading unit can be assembled or dismantled quickly and easily. The possibility of parts becoming lost is also virtually precluded. After all, the loading unit has no (relatively small) fixings and consequently is immediately ready for assembly.
To reduce the size of the loading unit when it is transported empty, two opposing walls can be divided over their height into two wall sections which can be turned relative to one another, which walls can be folded up after they have been removed from the loading base and cover, such that the wall sections come to lie between, under or on the other two walls.
By virtue of the two foldable walls divided into wall sections, the whole can be folded up into a fairly small pack which fits easily between the loading base and cover placed one on top of the other.
The walls can be made of a wide variety of materials which have the requisite mechanical properties; thus, for example, cardboard can be used. In addition, walls can be joined two by two and closed all round to form a self-supporting wall unit closed on all sides.
Cardboard, in particular corrugated cardboard of the appropriate thickness, offers the advantage of a low weight in combination with excellent strength, including the ability to withstand stacking forces. Moreover, the cardboard can have been treated such that it can be exposed to fluctuating weather effects without any problems.
An embodiment in which each wall has integral joining parts on its upright edges, by means of which integral joining parts the walls are joined together two by two, is also possible.
The walls can all be dismantled into separate parts. On the other hand, they can be joined to one another firmly in such a way that one or more self-supporting units are formed which provide a non-buckling support. The walls themselves are exposed to compressive forces over their entire cross-section as a result of which firm support is ensured. The non-buckling stability of the walls can be appreciable by virtue of the distributed load.
Each integral joining part can be a shaped section permanently fixed at the edge of a wall. The joining parts can, for example, have hook elements, which hook elements can be slid into one another in the direction of the edges of the walls.
The transverse dimensions of said shaped section components can be very small since these components have to play no part in supporting any loading unit stacked on top.
Each shaped section can have an undercut cavity into which a hook component of an adjacent shaped section can be slid.
Furthermore one shaped section of each two shaped sections joined to one another can be constructed with an undercut cavity at the end of the associated wall and the other shaped section with an undercut cavity at the face of the other associated wall, which face faces the end of the first wall.
In the case of relatively high loading units, the walls can be subdivided in the height direction into wall sections located above one another and every two of said wall sections located above one another can be linked by an H-shaped section. The advantage of this embodiment is that the walls can be reduced to one or more small packs, which once again can be accommodated between the loading base and cover placed one on top of the other.
The loading base can have support on its underside, between which supports the forks of a fork lift truck can be accommodated.
To guarantee interchangeability with the known pallets in use to date, the loading unit according to the invention has a loading base which has external dimensions of 1.02×1.22 m. Because cardboard walls are used, the internal dimensions can be 1.00×1.20 m. The total external height of the loading unit, including supports, can be 0.75 or 1.50 m. When folded up, the loading unit can have a height of {fraction (1/7)} of the total 1.50 m.
An illustrative embodiment of the loading unit according to the invention will now be explained in more detail with reference to the drawings.
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patent: 0 415
KLM Royal Dutch Airlines
Merek Joseph C.
Young Lee
Young & Thompson
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