The present invention relates to a pallet container for storing and transporting in particular hazardous liquid filling materials, having an exchangeable plastics inner container and a supporting casing which closely encloses the plastics inner container and is made of a tubular lattice frame which is fastened to the upper outer rim of a rectangular pallet, wherein the pallet has a flat pallet top deck for supporting the fitted plastics inner container, and a pallet substructure having corner and middle feet.
The pallet is equipped, between the corner and middle feet, with in each case a corresponding recess for the insertion of the forks of a fork-lift truck. The pallet can be passed beneath from all four sides in the longitudinal or transverse direction. Filled pallet containers having a filling volume of approximately 1000 liters with a conventional pallet size of 1200 mm×1000 mm can have a weight of well over 1 t, depending on the specific weight of the liquid filling material, and are only able to be handled with fork-lift trucks.
For such lightweight composite pallet containers of the present kind without solid metal frames and corner posts there have hitherto been no particular constructive devices for optimal transportation securing. All that are known, in the case of steel pallets, are through-openings in the corner feet themselves, which consist of solid sheet steel.
It is the object of the present invention to propose a pallet container of the generic type with a particular configuration with regard to greater transportation security.
This object is achieved according to the present invention by the features of claim 1. Since a transportation securing eye that consists of metal is provided and fastened in each case on the pallet top deck of the bottom pallet in all four corner regions externally in front of or at the bottommost horizontally peripheral lattice tube of the tubular lattice frame, a filled pallet container, or a multiplicity thereof, can be lashed down safely for transportation on a truck with the aid of lashing straps, at one end of which a securing hook for hooking into the transportation securing eye is provided, such that said pallet container cannot slip on the load bed of the truck on account of acceleration processes (starting up, braking, road irregularities, potholes).
Expediently, the transportation securing eye is fastened by way of a screw that passes through the bottommost horizontally peripheral lattice tube of the tubular lattice frame in the corner region. This screw is present in any case for fixing the lattice frame and it is possible to dispense with a separate further fastening means for the transportation securing eye.
In a first simple configuration of the invention, provision is made for the transportation securing eye to be provided with a hinge joint and to be formed in a flappable manner. Thus, the transportation securing eye can rest flat on the pallet top deck and is only flapped up when used for hooking in the respective securing hooks of the lashing straps.
In a preferred configuration of the invention, provision is made for the transportation securing eye to be produced in one piece with a fastening tab from a sheet-steel strip and to be provided at its outer rim and in its through-opening in each case with an angled flange rim. In this case, this transportation securing eye together with the fastening tab should have an overall length of approximately 60 mm to 95 mm, preferably approximately 85 mm, an overall width of approximately 55 mm, and a free inside diameter of the through-opening of approximately 20 mm to 40 mm, preferably approximately 30 mm.
The fastening tab is easy to fasten, but a particular feature should be noted, namely that the fastening tab having a bore is angled at right angles to the transportation securing eye and is fitted in a form-fitting manner from the inside under the bottommost horizontally peripheral lattice tube, pressed flat in the corner region, of the tubular lattice frame, and is screw-connected and fastened by means of the fastening screw that passes through the bottommost horizontally peripheral lattice tube of the tubular lattice frame in the corner region. The angled fastening tab initially allows unimpeded screwing in of the fastening screw.
In the mounted state, the transportation securing eye projects upwardly substantially perpendicularly to the pallet top deck and only when the filled pallet containers are loaded is the transportation securing eye bent obliquely in the guyed state with taut lashing straps, such that the angled flange rim, in the lower region of the through-opening, comes to rest against the screw head of the fastening screw screwed in in the corner region and thus covers the screw head and fixes the latter against undesired loosening.
The invention is described and explained in more detail in the following text with reference to exemplary embodiments schematically illustrated in the figures of the drawing, in which:
a and 2b show a simple embodiment of a transportation securing eye,
a, 4b, 4c show a preferred embodiment of a transportation securing eye,
In
The bottom pallet 12 is embodied here as a pure plastics pallet; however, it could also be a steel pallet, a wooden pallet or a composite pallet (made of steel and plastics material or wood with plastics feet or skids). The corner regions, of importance here, of the pallet container according to the invention having particular transportation securing eyes are marked with a circle “X”.
A simple embodiment of a transportation securing eye 18 is illustrated in
a, 4b and 4c illustrate various perspective views of a preferred embodiment of a very stable transportation securing eye 30. In constructive terms, the transportation securing eye 30 is produced in one piece with a fastening tab 32 from a sheet-steel strip and is provided at its outer rim 34 and in its through-opening 36 with an angled flange rim 38, 40. In this case, the transportation securing eye 30 together with the fastening tab 32 has an overall length of approximately 60 mm to 95 mm, preferably approximately 85 mm, an overall width of approximately 55 mm and an inside diameter of the through-opening 36 of approximately 20 mm to 40 mm, preferably approximately 30 mm. The thickness of the sheet-steel strip is 2 mm and the flange rims are angled by approximately 3.5 mm.
As is illustrated in
In the lashed-down state, the fastening tab 32 is bent in a U-shaped manner about the bottommost lattice tube 26 and thus serves for broad, extensive introduction of tensile forces from the lashing straps into stable fixed points of the multiply screw-connected bottommost peripheral lattice tube 26 of the tubular lattice frame 16. As a result of the broad force transmission by the wrapping of the bottommost lattice tube, the screw is largely relieved of load and the screw 28 has to bear virtually no tensile-force loading, but rather is pushed further into its screwed-in position by the bent-over transportation securing eye 30. The risk of the fastening screw tearing out or the screw head breaking off is reliably ruled out here—even in the event of jolt-like load impacts.
On account of the angled flange rims at its outer rim and in its through-opening 26, the stability of the transportation securing eye 30 is very substantially increased and the risk of the transportation securing eye itself tearing out is also reliably ruled out. The hooked-in lashing hooks have here not only a linear but also an extensive bearing surface for functional force transmission. With such lashing straps hooked into the four transportation securing eyes of a pallet container, reliable fixing to the load bed of a truck can be realized, with the result that much improved load securing of filled pallet containers can be ensured.
In test drives carried out by DEKRA with corresponding brake tests, quite excellent results were achieved, with not a single secured pallet container of this kind slipping.
Previous solutions for load securing of filled pallet containers consist in fixing the latter with upended wooden pallets in conjunction with anti-slip mats and lashing straps on the load bed of the truck; however, this is comparatively very complicated. With the easy fix system proposed according to the invention herein, no additional pallets which are not present on every truck are required, but rather simple and optimal load securing can be realized with the conventional lashing straps that every truck is equipped with.
Number | Date | Country | Kind |
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20 2012 009 326.6 | Sep 2012 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2013/002762 | 9/13/2013 | WO | 00 |