Abstract
A cargo supporting structure made of a liner, mounted inside a container cargo, comprising a plurality of pre-tensioned belts coupled to an elastically deformable and not extensible element shaped like a circular ring, made of composite material and reinforced with steel stiffening elements; and comprising one ratchet tensioning means, mounted on one of the pre-tensioned belts to tension all pre-tensioned belts.
Claims
1. A cargo supporting structure (4) mounted inside a cargo container (5) by way of a container opening side, said cargo supporting structure (4) comprises a plurality of pre-tensioned belts (1), at least a deformable and not extensible element (2) having a center hole, and at least one tensioning means (3); wherein said cargo supporting structure (4) comprises connections between said belts (1) and said deformable and not extensible element (2) to which all said pre-tensioned belts (1) are connected; and wherein said deformable and not extensible element (2) is shaped as a circular ring and it is made up of a matrix of an elastomer with steel stiffening elements therein; and wherein said connection between said pre-tensioned belts (1) and said deformable, not extensible element (2) is made by all belts passing through said center hole of the deformable and not extensible element (2).
2. The cargo supporting structure (4) mounted inside a container (5) according to claim 1, wherein said one tensioning means (3) is configured to tension the plurality of all pre-tensioned belts (1) of said supporting structure (4) is provided with.
3. The cargo supporting structure (4) mounted inside a container (5) according to claim 1, wherein said steel stiffening elements are arranged along an inner circumference (21) of the circular ring (2).
4. The cargo supporting structure (4) mounted inside a container (5) according to claim 1, wherein said tensioning means (3) are ratchet levers.
5. The cargo supporting structure (4) mounted inside a container (5) according to claim 1, wherein said cargo supporting structure (4) is a liner to contain bulk material to be transported.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) These and other advantages will be clear from the detailed description of the present invention which will refer to FIGS. 1/3 to 3/3 in which it is shown an absolutely, not limiting, preferred embodiment of the invention. In particular:
(2) FIG. 1 shows the cargo supporting structure as inserted through the rear open side of a generic cargo container;
(3) FIG. 2 is a front view of the open side of a container showing the cargo supporting structure made up of all belts coupled to a deformable, not extensible, central element;
(4) FIG. 3 shows a detail of the deformable, not extensible element in its preferred embodiment, shaped as a ring;
(5) FIG. 4 shows a side view of the liner arranged inside the container for the transport of bulk materials, supported by the structure, object of the invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
(6) Referring to the figures, it will be described in detail a preferred embodiment of the present invention, in a not limiting way, using, as an example, a liner containing a bulk material to be transported inside a cargo container of standard dimensions.
(7) On FIG. 1 is described schematically the open side of a container 5 of standard dimensions ISO 20 ft or ISO 40 ft (i.e. containers of twenty or forty feet in length) with the cargo supporting structure, object of the present invention; in particular, the cargo to be transported is inside a liner 4 designed for the transport of bulk material. The supporting structure for the liner is made up of a plurality of pre-tensioned belts 1, a deformable, not extensible element 2 made of composite material, positioned in the center and at least a tensioning means 3 for adjusting the tension of the belts 1. The liner 4 inside the container is provided with at least an opening 6 through which the bulk material can be introduced or extracted from the liner. In the preferred embodiment of the cargo supporting structure shown on FIG. 1, the deformable element 2 is shaped as a circular ring 2 around which the belts 1 pass though, and is slightly deformed when is under the belts tension. However, at the same time, the ring 2 cannot be elastically extended since has inside with stiffening steel wires.
(8) The liner 4 to be supported, usually has more or less standardized dimensions as it needs has to be inserted inside the container 5, filling up almost entirely its inner volume.
(9) As it is shown on the front view of FIG. 2, the pre-tensioned belts 1 are anchored on both ends to different connection points (preferably opposed with respect to each other) on the inner walls of the container 5, insuring that each belt 1 abuts in its way the central ring 2 thus acting as a support for the same ring 2. As it is clear from FIG. 2, the ring 2 maintains itself in an almost central position thanks to the combined actions of the belts 1, after being tensioned. Always referring to the preferred embodiment on FIG. 2, it is clear that a first belt 1a starts from the top right-hand side of the container, goes through the ring 2 at its upper portion and comes out from the other side of ring 2 to be attached to the upper end of the container, opposed to the starting point, on the top left-side of the container. A similar procedure can be adopted to position a second belt 1b in a specular way with respect to the belt 1a in the lower portion of the liner 4. A third belt 1c can be positioned horizontally almost at half height of the container and can be coupled to the opposed end insuring that it goes first through the inside of ring 2 and then to the outside of the ring 2 arranged in the center. It is also possible that the single belts 1 can go around the ring 2 multiple times to be optimally anchored. According to an alternative embodiment the cargo supporting structure, the third belt 1c can be substituted by a couple of belts (not represented on the drawings) to be arranged, always horizontally, each one with an end anchored to the inner wall of the container (right side and left side) and the other end to the central ring 2. The cargo supporting structure thus obtained by the coupling of the belts and the central ring, being tensioned by acting on only one tensioning means 3 mounted on any belt 1. Said tensioning means 3 is preferably positioned at a relatively low height with respect to the floor of the container 5, mounted one of the belts positioned in the lower portion of the liner 4. Said tensioning means 3 can consist of ratchet levers.
(10) The tensioning means 3 allows to adjust the tension from only one point of the cargo supporting structure and to balance the whole structure, transferring uniformly the tension to all the belts.
(11) The central ring 2, as depicted on FIG. 3, is made up of a composite material consisting of a matrix of elastomer reinforced with a material which provides more stiffness. The elastomer can be usually made of cured rubber while the stiffening can be a steel ring arranged along the inner circumference 21 of the ring 2 or, alternatively, the stiffening can be provided by a plurality of steel wires arranged inside the rubber matrix. It is clear that also other materials can be used, provided that some elasticity and sufficient stiffness are maintained, to avoid deformation, as a purely elastic element 2 would.
(12) Finally, FIG. 4 shows schematically the liner 4, to be arranged inside the container 5, the liner being made of low density polyethylene having an average thickness of about 0.14 mm. As it is shown on the side view, the liner 4 can be provided with one or more openings 6 for the introduction and extraction of the bulk material to be transported.
(13) In addition to the cargo supporting structure of a container as previously described, a raffia cloth (not represented for drawing simplicity) can be interposed between the structure made up of the belts 1 coupled to the central ring 2 and the liner 4 to be supported. The aim use of this cloth is to provide a clear separation between the bulk material contained inside the liner 4 and the cargo supporting structure.
