BE1017724A6 - Reinforced tarpaulin for preventing a deformation upon transport with e.g. a freight truck has two layers of reinforcement threads that are positioned in opposite bias directions and a flexible carrier that is positioned on the layout - Google Patents

Abstract

Two layers (17,18) of reinforcement threads (10) are positioned in opposite bias directions and a flexible carrier (15) is positioned on the layout (16) produced from the layers of threads. The carrier and the layout are sewed together with sewing thread (20) and coatings (21) are applied to the exterior of the carrier and the interior of the layout. The threads of one layer are positioned at an angle between 0 and 90[deg] and the threads of the other layer are positioned at an angle between 0 and -90[deg] with respect to the longitudinal direction of the tarpaulin material. An independent claim is also included for the use of the reinforced tarpaulin.

Description

Roof stabilization system to prevent deformation of load, trailer and / or trucks

Technical field

The present invention relates to the technical field of reinforcement materials and in particular of tarpaulin materials for preventing deformation of load wagons and / or trailers and the like.

BACKGROUND OF THE INVENTION

A lot of accidents have already happened with load and / or trailers, especially with roof covers and tarps in the side walls. Since in a bend the centrifugal force starts to push the load against the side, the top frame more or less deforms into a banana shape, especially with a sliding roof canvas. This can lead to the collapse of the structure. The tarps on the side can also fail, resulting in a loss of cargo. During banana formation, both the upper girder (longitudinal girder) on the loaded side and the upper girder on the other side deform because they are connected to each other by girders. According to DIN standards, this deviation or deviation at the worst location may not exceed 300 mm. There are existing standards such as standard EN 12642 code XL whereby the truck or trailer may deform a maximum of 30 cm with a load of 10800 kg on the side wall of the relevant truck or trailer. This imitates a load shift in the load, freight or trailer. A deformation in the form of a banana occurs in which the upper longitudinal girders and the connecting tarpaulins or plates start to deflect.

Patents or patent applications from, among others, Kögel and Edscha are already known, with different cables in bias form connecting the upper beams together. In this case, one steel cable is applied to the upper girders in one or more bias directions and is optionally glued to the top cover by means of tape or welded on with a tape. This welding or sticking takes precedence over loose cables as they can cause problems when loading and unloading and can therefore hook onto the pallets or load when the roof is slid open.

It is an object of the present invention to provide a problem on the above problems. The invention has for its object to provide a tarpaulin reinforcement and a tarpaulin, which are suitable to prevent deformation of load, trailer and / or lorries, or at least to a considerable extent to reduce them.

Summary

In a first aspect, the invention provides a tarpaulin reinforcement suitable for reinforcing a tarpaulin.

The invention provides a tarpaulin reinforcement, preferably a multi-axial, lay, fabric, non-woven, braid or a combination thereof, provided with reinforcement elements provided at an angle different from 0 ° or different at 90 ° in at least one direction . .

In another embodiment, the invention provides a tarpaulin reinforcement, preferably a multi-axial, lay, fabric, non-woven, braid or a combination thereof, provided with reinforcement elements which are provided in the longitudinal direction at an angle of 0 °.

In another embodiment, the invention provides a tarpaulin reinforcement, preferably a multi-axial, lay, fabric, non-woven, braid or a combination thereof, provided with reinforcement elements provided in at least one bias direction and in at least one other direction, at preferably the longitudinal direction.

In yet another embodiment, the invention provides a tarpaulin reinforcement, preferably a multi-axial, lay, fabric, non-woven, braid or a combination thereof, provided with reinforcement elements which are provided in at least four directions.

Another embodiment of the present invention includes a tarpaulin reinforcement that includes an adhesive cloth on which a lining is provided. The adhesive cloth consists wholly or partly of a thermoplastic material, preferably of PVC, and is suitable for being attached to the tarpaulin, preferably by gluing, sticking or welding.

The adhesive cloth preferably consists of a multi-axial, laying, fabric, non-woven, braid or a combination thereof, and more preferably a fabric, for example a polyester mesh, which has been coated with or dipped in a thermoplastic material, for example PVC or PE.

The web preferably consists of at least three individual layers of reinforcement wires, the layers of reinforcement wires being superposed. The reinforcement wires are preferably provided in one layer in the same direction. The reinforcement wires are further preferably provided in at least two bias directions and in one longitudinal direction. Such a tarpaulin reinforcement can, when used, be attached to a tarpaulin, after which the tarpaulin is attached to the roof construction of a load, trailer and / or truck in anchoring points.

The tarpaulin reinforcement according to the invention is preferably fixed to all possible anchor points (attachment points) provided in the roof construction of the carriage. The connection is therefore preferably made at all possible connection points, which may reduce or even prevent any deformation of the horizontal beams.

In another aspect, the invention provides a tarpaulin suitable for being attached to a roof structure of a load, trailer or truck at the height of. anchoring points provided in the roof construction. The tarpaulin preferably comprises a tarpaulin reinforced with a tarpaulin reinforcement as defined herein.

The present invention also relates to a tarpaulin that serves as a stabilizer and can at least partially prevent deformation of load, trailers and / or trucks. The tarpaulin is for this purpose characterized in that it is provided with reinforcement wires, which reinforcement wires are provided at least in the bias direction, this being at an angle different from 90 °, and / or in the longitudinal direction, this being at an angle of 0 °.

The term "bias" refers to a direction that runs diagonally through the material, and preferably in a direction at an angle different from 90 ° to the length or width direction of the material. In the present invention, this angle can be understood to be between 1 and 89 °, and may be, for example, 10, 20, 30.40, 50, 60, 70 or 80 °.

The terms "reinforcement wires" or "reinforcement elements" are used herein as synonyms.

In a first embodiment the invention provides a tarpaulin that is provided with reinforcement wires, which reinforcement wires are provided at least in the bias direction and / or in the longitudinal direction.

In a preferred embodiment the invention provides a tarpaulin, wherein the reinforcement wires are provided at an angle which is different from 90 °, and preferably at an angle lower than 90 °, and more preferably at an angle which is equal to, for example, 85 °, 80 °, 75 °, 70 °, 65 °, 60 °, 55 °, 50 °, 45 °, 40 °, 35 °, 30 °, 25 °, 20 °, 15 ° or 10 °.

In another preferred embodiment, the invention provides a tarpaulin, wherein the reinforcement wires are provided at an angle of 0 °.

In yet another preferred embodiment, the invention provides a tarpaulin wherein the reinforcement wires are provided in at least two different bias directions. In yet another preferred embodiment, the invention provides a tarpaulin wherein the reinforcement wires are provided in at least three, and for example in at least four or at least five different bias directions. In another embodiment, the invention provides a tarpaulin wherein the reinforcement wires are provided in at least four directions, preferably in bias directions and longitudinal directions.

The invention consists in connecting, directly or indirectly, different reinforcement elements running parallel to each other in bias direction to the different, for example, horizontal girders or to the horizontal connecting pieces between the horizontal girders.

These different reinforcement elements may or may not already be attached to the base cover or to another composite, preferably PVC or PE, by production method or by welding and / or sticking.

The bias direction refers to a direction that runs diagonally through the material at an angle different from 0 ° and 90 ° relative to the length and / or width directions.

In one embodiment the invention provides a top cover which is provided with reinforcement wires which are present at least in the bias direction and wherein at least two bias wires are connected to a fixing point, also referred to herein as an anchor point.

In a preferred embodiment the invention provides a tarpaulin, wherein the reinforcement wires are provided at an angle different from 90 ° and preferably at an angle lower than 90 ° and which is for example equal to 85 °, 80 °, 75 °, 70 °, 65 °, 60 °, 55 °, 50 °, 45 °, 40 °, 35 °, 30 °, 25 °, 20 °, 15 °, 10 °, 5 °. This angle "o" will preferably also be equal to the ratio of the section to the horizontal distance and even more preferably to a multiple thereof.

Tg a = (the estate (aauae) horizontal connectors spacing attachment on horizontal connectors

In another embodiment, the invention provides a tarpaulin, wherein the reinforcement wires are provided at an angle of 0 °.

In a further embodiment the invention provides a tarpaulin, wherein the reinforcement wires are wires which at least partly or entirely consist of steel.

The reinforcement wires employed may also comprise aramid threads and more preferably para-aramid threads, or fiber optic threads, carbon threads and / or steel cables. Particularly desirable is a layer in which (para) -aramide wires are combined with steel cables, so as not only to obtain a more robust tarpaulin and tarpaulin reinforcement, but also to obtain a tarpaulin and tarpaulin reinforcement that is resistant to incision or notching and thus serves as anti-vandalism material.

The invention preferably provides a tarpaulin in which the reinforcement wires exhibit an elongation at break which is lower than 10%, and for example lower than 8%, 7%, 6%, 5%, 4% or 3%. In yet a further embodiment, the invention provides a tarpaulin in which the reinforcement wires are steel wires of 0.22 mm, 0.25 mm or 0.35 mm. The reinforcement wires may optionally be mixed with other wires, and / or cords, twine wires, cables, and / or multi-filaments.

The present tarpaulin preferably in an upper tarpaulin (or top tarpaulin), this is a tarpaulin suitable for covering the top of a load, trailer or truck or the like. However, the present tarpaulin can also comprise a tarpaulin suitable for covering the side wall (s) of a load, trailer or truck.

In a further embodiment the invention provides for the use of a tarpaulin according to the invention as a stabilizer against the deformation of load wagons, trailers and / or trucks.

In another embodiment, the invention provides for the use of a tarpaulin according to the invention as reinforcement material and / or anti-vandalism material.

With the insight to better show the characteristics of the invention, a few preferred embodiments are described below as an example without any limiting character.

Description of the Figures FIG. 1 represents a top view of a roof construction of a truck, as is known from the prior art, which is provided with a tarpaulin. The tarpaulin is provided with reinforcement wires that connect the fixing points in two opposite sides of the structures in two bias directions.

FIG. 2 to 5 illustrate plan views of roof structures of trucks that are covered with various embodiments of tarpaulins according to the present invention.

FIG. 6 illustrates a sleeper or roof eye on which reinforcement wires, and thus a tarpaulin reinforcement according to the invention, can be attached.

Detailed description

The innovation according to the present invention consists in that the reinforcement wires and / or reinforcement elements are provided directly in the tarpaulin or top tarpaulin as in the anti-vandalism tarpaulin described in WO 2005/023537, which patent application is incorporated herein by reference. Due to the fact that the bi-axial wires connect the two upper beams of the frame directly or indirectly to each other and preferably also to the head and the rear of the frame, the forces are better absorbed and distributed. The current material in which, for example, an angle of 60 ° of the bias wires with respect to the longitudinal direction is provided will hereby suffice to at least partially prevent deformation problems.

In order to meet desired properties, such as being as flexible as possible, as light as possible, preferably non-rusting, strength, and high resistance to elongation, certain materials will be preferred.

For example, mono steel wires from e.g. 0.22 mm diameter with 6 wires per inch in both directions (bias) already meet. It goes without saying that materials other than steel can also be used in pure or in mixed form. In order to prevent possible rust, for example (galvanized) steel wires can be replaced by stainless steel wires. These reinforcement wires can also be wholly or partially replaced, with or without mixing, with aramid wires, preferably para-aramid wires, carbon fibers or wires, glass or rock wool such as basalt, INOX, PEEK, PEK and others more in all possible combinations in yarn composition, continuous or tensioned threads, mixtures in thread form, in twisting or cabling, twisting, etc. and all possible textile forms such as straps, braids, fabrics, knits, clutches, non-wovens, etc. The

The elongation at break will preferably be as low as possible, and preferably lower than 10% and even more preferably lower than 3%, otherwise the wires must be over-dimensioned to have sufficient elongation resistance at a given load. A construction with longitudinal wires will also help, especially if they connect the front frame to the rear panel and especially if the elongation of these wires is not higher than the elongation of the top beams.

A construction as shown in FIG. 2-5 only have bias-shaped reinforcements in the construction or composite in the sense that the fixing points on the horizontal connecting pieces of the sleepers or on the sleepers themselves are connected diagonally (in bias). The (textile) product can also only have threads in these places of connection, but can possibly also have a regular construction. These connecting wires can optionally also be provided in tape form, whether or not already embedded in PVC or PE or another material.

The reinforcement structure can also only consist of a longitudinal reinforcement (angle 0 ° or preferably smaller than 45 °).

An even more preferred construction will consist of a material with bias reinforcement, other than 0 ° and / or 90 °, and with a longitudinal reinforcement of preferably 0 °. These longitudinal wires will connect the front plate and the rear plate or front and rear rails of a car directly or indirectly to each other and also contribute to the deformation of the trailer and / or car.

FIG. 2-5 illustrate roof structures 1 for a load, trailer or truck. The roof constructions comprise a rectangular frame (frame), consisting of two short sides 2,3 (also called top beams or front and rear rail), and two sides that extend in the longitudinal direction 4,5 (also called upper beams or longitudinal beams) . The sides 4,5 extending in the longitudinal direction are mutually connected by means of sleepers or roof eyes 6, which sleepers are provided with anchoring points 7 for anchoring a tarpaulin 8 to the roof construction. The tarpaulin 8 comprises, as explained above, a tarpaulin reinforcement that comprises a web of reinforcement wires 9, 10, 11. These reinforcement wires are provided in three directions: there are reinforcement wires 9 in the longitudinal direction, and reinforcement wires 10, 11 in two bias directions. The reinforcement wires 9, 10, 11 connect all possible anchoring points 7 provided on the roof eyes 6.

For comparison, reinforcement wires 10, 11 provided in tarpaulins 8 known from the prior art, as illustrated in FIG. 1 are provided in two (bias) directions, but not in the longitudinal direction, and do not connect all possible anchor points.

The reinforcement wires 10, 11 connect those anchoring points 7 in two opposite sides 4, 5 of the structures. As can be seen from the figures, the reinforcement wires are suitable for being anchored in the anchor points 7 of the roof structure: here the reinforcement wires connect one anchor point on one side of the roof structure with one anchor point on an opposite side of the roof structure. The aforementioned connected anchoring points, however, are not straight with respect to each other on the same cross member, but obliquely (bias) with respect to each other on different cross members, as represented in FIG. 2-5.

Thus, an anchor point provided on a sleeper can be connected to the anchor point provided on the next, so adjacent, sleeper as shown in FIG. 2. In FIG. 3, an anchor point is provided on a cross member connected to the anchor point provided on the second following cross member. There is therefore one cross member between the connected anchor points. In FIG. 4, an anchor point is provided on a cross member connected to the anchor point provided on the third next cross member. There are therefore two sleepers between the connected anchor points. In FIG. 5, an anchor point is provided on a cross member connected to the anchor point provided on the fifth next cross member. There are therefore four sleepers between the connected anchor points.

The reinforcement wires are provided in the bias direction. According to the invention, the angles at which these bias directions run (relative to the upper beams 4, 5 and thus the longitudinal direction of the roof construction) are determined inter alia by the location of the anchoring points 7 in the roof construction, by the dimensions of the roof construction, the distance between sleepers (gauge) and through the desired connection between the anchor points. With reference to FIG. 2-5, with a (roof) construction with a horizontal connection distance of 2170 mm and a gauge (distance between two sleepers) of 612 mm, the bias angle can be calculated as: a = 74 ° 15 '(FIG. 2: for connection with the next cross member); ß = 60 ° 35 "(FIG. 3 for connection to second following cross member), δ = 49 ° 22" (FIG. 4: for connection to third following cross member); y = 36 ° 04 "(FIG. 5: for connection to the next fifth sleeper).

FIG. 6 illustrates a roof eye 6 to which the reinforcement wires of a tarpaulin reinforcement or tarpaulin according to the invention are attached. Such a roof eye is usually provided with a crossbar 12, which is provided at the end with hands 13. The hands 13 are attached to the crossbar 12 at the level of plate 7, which serves as an anchor point. The reinforcement wires of a tarpaulin reinforcement or tarpaulin according to the invention are preferably attached to plate 14, for example by means of screws.

Examples

The following examples illustrate some constructions of tarps or tarpaulin reinforcement materials according to the invention. The constructions to be used can be the same as for the anti-vandalism tarpaulin as for example: example A: Chain: 0 ° nothing

Bias +/- 60 ° 6 wires per inch 0.22 mm steel

Weft 90 ° 6 threads per inch 0.22 mm steel 2 layers of non-woven PETP 70 gr / m2

+ PETP binding threads

PVC coating

or example B: Chain 0 ° 1,167 wires per 25 mm 0.35 mm steel

Bias +/- 60 ° 6 wires per inch 0.22 mm steel

Weft 90 ° 6 threads per inch 0.22 mm steel 3 layers of non-woven PETP 70 gr / m2

+ PETP binding threads

PVC coating

or can be made especially for the purpose Example C: Chain 0 ° Nothing

Bias +/- 60 ° 6 wires per inch 0.22 mm steel

Width 2 inches

Then 2 wires per inch 0.22 mm steel. Repetitive 2 inches - 4 inches, etc ...

Impact 90 ° Nothing

Non-woven Optional 0 or 1 or 2 layers

PVC coating

Example D: Chain 0 ° 3 wires per 25 mm 0.35 mm steel

Bias alternating 54 °: 6 wires per inch 0.22 mm steel On 2 inch wide tire (s)

Then 2 wires per inch 0.22 mm steel. On 4 inch wide band (s)

Weft 90 ° 2 wires per inch 022 mm steel

PVC coating

Other preferred examples of reinforcement structures include:

Example 1: A multi-axial gain 1.1 in bias 60 ° 35 "(± 1 °); 6 threads of aramid 1680 dtex spread over 2 inches and 0 threads in 4 inches (together 6 inches). A regular repetition follows.

1.2 longitudinally 0 ° -1 thread aramid 1680 dtex per 4.28 cm 1.3 knitting yarn: 167 dtex PES FTF.

Example 2: A multi-axial gain 2.1 in bias: 49 ° 22 "(± 1 °); 6600 dtex glass roving 6 threads / inch; regularly spread over the entire fabric 2.2 lengthwise -1 thread per 4.28 cm in 6600 dtex glass roving.

Example 3. A qlasleqsel 3.1. in bias 36 ° 04 '(± 1 °); 13200 dtex glass - 3 threads per inch 3.2. lengthwise (0 °) -1 thread 6600 dtex glass per 4.28 cm 3.3. adhesive product: PVC with uptake 25%.

Example 4. A multi-axial reinforcement for roof and anti-vandalism 4.1 in bias direction angle 60 ° 35 "(± 1 °); (4 wires of 1680 dtex aramid and 2 wires 3 x 3 x 0.15 mm coated steel cable): spread over 2 "and 0 wires spread over 4" (together 6 "); repeating regularly.

4.2 in the longitudinal direction; 1 thread 1680 dtex aramid per 8.56 cm and 1 thread coated steel 3 x 3 x 0.15 mm 4.3 knitting yarn: 235 dtex polyamide HT.

Example 5. A multi-axial reinforcement for roof and anti-vandalism 5.1 in bias direction: stainless steel 0.25 mm: 6 wires per inch = 12 wires on 2 "and 0 wires on 4" (together 6 "); regularly repeating 5.2 lengthwise: a 0.35 mm stainless steel wire per 4.28 cm

Example 6. A multi-axial for bi-directional roof expansion 6.1: glass yarn 660 dtex + anti-abrasion coating e.g. PVC; 6 threads per inch angle 49 ° 22 "(± 1 °) 6.2 in the longitudinal direction: glass roving 6600 dtex + anti-abrasion coating, e.g. PVC; 1 thread per 2.14 cm

It goes without saying that an infinite number of variations is possible with parameters such as wire type, density, angles, materials, weights, type of coatings, etc. The reinforcement wires can also be replaced and / or mixed with cords, twine wires, cables, tapes, multi filaments, etc.

Claims (18)

A tarpaulin reinforcement, preferably a multi-axial, web, fabric, non-woven, braid or a combination thereof, provided with reinforcement elements, wherein the reinforcement elements are provided at an angle different from 0 ° or at 90 ° in at least one direction. A tarpaulin reinforcement according to claim 1, wherein the reinforcement elements are provided in the longitudinal direction at an angle of 0 °. A tarpaulin reinforcement according to claim 1 or 2, wherein the reinforcement elements are provided at least in one bias direction and at least in one other direction, and preferably in the longitudinal direction. A tarpaulin reinforcement according to any one of the preceding claims 1-3, wherein the reinforcement elements are provided in at least four directions A tarpaulin reinforced with a tarpaulin reinforcement according to any one of the preceding claims 1-4. 6. Tarpaulin provided with reinforcement wires, which reinforcement wires are provided at least in the bias direction and / or in the longitudinal direction. A tarpaulin according to claim 6, wherein the reinforcement wires are provided at an angle which is different from 90 °, and preferably at an angle of 60 °. A tarpaulin according to any one of the preceding claims, wherein the reinforcement wires are provided at an angle of 0 °. 9. Tarpaulin as claimed in any of the foregoing claims, wherein the reinforcement wires are provided in at least two different bias directions. 10. Tarpaulin as claimed in any of the foregoing claims, wherein the reinforcement wires are provided in at least four directions. 11. Tarpaulin as claimed in any of the foregoing claims, wherein the reinforcement wires are wires which at least partly or entirely consist of steel. A tarpaulin according to any one of the preceding claims, wherein the reinforcement wires have an elongation at break which is lower than 10%, and preferably lower than 3%. 13. Tarpaulin as claimed in any of the foregoing claims, wherein the reinforcement wires are steel wires of 0.22 mm, 0.25 mm or 0.35 mm. A tarpaulin according to any one of the preceding claims wherein the reinforcement wires are aramid, carbon, fiberglass, rock wool, INOX, PEEK, or PEK wires. A tarpaulin according to any one of the preceding claims, wherein the reinforcement wires are mixed with cords, twine wires, cables, and / or multi-filaments. A tarpaulin according to any one of the preceding claims, wherein the tarpaulin is for the top and / or for the side wall of a load, trailer or truck. Use of a tarpaulin reinforcement or tarpaulin according to any one of the preceding claims, as a stabilizer against the deformation of load wagons, trailers and / or trucks. Use of a tarpaulin reinforcement or tarpaulin according to any one of the preceding claims as reinforcement material and / or anti-vandalism material.