DE202007003887U1 - Protective sleeve for securing heavy load on moving platform bears a high-friction rubber coating - Google Patents

Abstract

A woven textile protective sleeve (1) is placed around an anchorage strap (2) or cable and bears a coating (6) that has a much higher coefficient of friction than the naked sleeve weave. The coating is placed in direct contact with an item (3) that is to be secured. The coating (6) is a plastic with embedded friction particles e.g. rubber grains or powder applied several millimeters thick in a hot casting process. The sleeve frictional coating is rectangular and covers the width of the underlying strap.

Description

The The invention relates to a woven protective tube for in particular Lashing or lifting gear.

Such woven protective tubes are not only used in the textile lashing or slinging means described above, but are also used, for example, for protecting round slings. In any case, it is important to secure the lashing or sling or the round sling with a corresponding force to damage. In addition, the lashing or sling or the round sling should be allowed a certain relative movement compared to the object to be secured. Such protective tubes are generally by the EP 0 556 452 A1 or by the DE 295 09 080 U1 known.

Independently of WO 2006/032381 A1 describes such a woven protective tube. Here one has set the goal, the friction between the load receiving lashing or sling and the protective element or Reduce protective hose. That's not just when lashing down, but also important when lifting objects. To this Purpose engages the known protective element on two operatively connected textile elements back, which are combined with each other. In fact, in addition to a textile Basic fabric provided another textile material, which at least on the lashing or slinging associated surface of the Basic tissue is present. The supplementary textile material advantageously has a lower coefficient of friction than the textile base fabric, so that the lashing or let slings move freely in the protective element should.

The known procedures, in particular according to WO 2006/032381 A1, are disadvantageous insofar as the textile material carried by the base fabric in the interior of the protective tube firmly interwoven with the base fabric which complicates manufacturing and increases costs. This is all the more true, as the textile material in question additionally ribs forms so that only very special materials are used. The invention aims to remedy this situation.

Of the Invention is the technical problem underlying a woven Specify protective tube, which is significantly reduced Production and financial expense.

to solution This technical problem is a woven protective tube for in particular textile lashing or sling in the invention an outside Coating with higher coefficient of friction compared to tubular fabric characterized in that the coating at least at one arranged to be secured object facing surface.

in the Contrary to the prior art pursues the present invention So a completely different direction. Because so far it was always about the coefficient of friction inside the protective tube to reduce that over the lashing or sling or the round sling evenly forces in the for example, to be lifted or held object initiated become. That requires regular, that the lashing or slinging in question or the round sling - at least within certain limits - over the woven one Protective tube and inside him can move back and forth. Out For this reason, in the prior art, the friction between the one in question has Lashing or slinging respectively the round sling and the tubular fabric reduced inside the protective tube.

The Invention now goes completely different way. Because usually Such lashing or slings or round slings are often even with relatively smooth surfaces equipped, which also for the woven protective tube inside and outside applies. That is, the Effect of any internal friction-reducing coverings or Layers is rather low or leaves only with relatively large production costs to reach.

In Knowing this circumstance, the invention now ensures that Relative movements between the lashing or stop means respectively the round sling and the protective tube even without these friction-reducing Coatings are allowed inside the protective hose. Because According to the invention Protective hose, as it were on the outside over the provided there coating by friction with the secured Object connected. Through this friction connection between the object and the outside of the protective tube respectively provided on this surface Coating is unchanged achieved that the lashing or sling respectively the round sling across from the protective tube, the required relative movements when, for example Make lashing can. So it does not come to deformations of the protective tube and thus to a non-uniform force in the object to be secured.

The invention is thus based in summary on the recognition that the introduction of force into the object to be secured and the ability of the lashing means for relative movement relative to the protective tube is ultimately influenced by two friction pairs, on the one hand the pairing lashing - Protective hose and on the other hand mating protective hose - object to be secured. While the prior art has tried to influence only the friction pair lashings - protection hose, the invention primarily relies on the friction pair protection hose - to be secured object and pursues the goal here of providing the highest possible coefficient of friction available.

Actually mostly between the coating in question and the one to be secured Subject observed a so-called dry friction, so one such without liquid (for example, rain). In this case, according to the invention friction coefficients between the coating in question and the object to be secured of generally at least 0.5, preferably more than 0.8 and most preferably set more than 1.0 and observed.

Around To achieve this in detail, the coating is regularly called Plastic coating formed and likes of polyurethane (PU) or a comparable elastomer such as acrylate rubber (ACM), Acrylonitrile Butadiene Rubber (NBR), Ethylene Propylene Rubber (EPDM) and so on. To reduce the friction between the coating and to increase the object to be secured even more, it has proven useful when the coating facing at least at its the object to be secured surface having embedded friction particles.

at These friction particles may in principle be granules of a of any material, with grits in the millimeter range, usually up to 10 mm in diameter, preferably up to 5 mm in grain diameter Find use. As material for the granules or the friction particles, the invention largely falls back on plastic. The is called, Plastic friction particles are used. The friction particles are It is particularly preferred to granulate rubber granules, which in turn from natural or synthetic rubbers are made, for example of ethylene-propylene rubber (EPDM) or acrylonitrile-butadiene rubber (NBR), etc. For reasons of cost it proved to be particularly advantageous when the Gummigranulatkörner from Recycled materials manufactured or provided on this basis become. The recycling materials in question may be For example, shredded old tires act.

Basically, as Friction particles also particles of granular powder, for example Silicate powder, sand powder, etc. are used. Also fiber particles, e.g. Glass fiber particles, are suitable as friction particles. Regularly attacks the invention, however, both in the production of the coating as also with the friction particles on each elastomeric plastics back to First, a perfect conformability of the coating to the Object or its surface to achieve, secondly, to build up the necessary frictional forces and third, any sensitive surfaces on the object to be secured not to damage.

The Coating itself usually has one material thickness of several millimeters and surpasses the material thickness of the protective tube or tubular fabric usually many times. Indeed likes the material thickness the coating is below 10 mm, for example approx. 5 mm. On the other hand is the material thickness of the protective tube usually less than 1 mm.

Of the Protective tube itself or the tubular fabric is - like that For example, in him recorded lashing or sling - regularly off a polyester / polyamide and / or polypropylene fabric. Of course they are also mixed forms conceivable. About that In addition, the protective tube can in principle also in its interior with a coating on its lashing or stop means associated Surface to be equipped, the improved sliding properties compared to the protective tube itself having. As stated in the introduction, will be at this point in the friction pairing sling-protective hose but friction coefficients (Plastic - plastic) observed, which is regular in the field anyway are from 0.1 to at most 0.2 and thus at least to the Factor two are smaller than the friction numbers of the friction pairing Coating - too securing object, even without sliding coating. The is called, the lashing or sling respectively the round sling can be the one for the perfect Securing the object, if necessary, relative movements relative to the woven protective hose in any case easily perform.

in the Generally, the coating has a width in cross-section adapted to the textile lashing or lifting means received in the protective tube Width up. In fact, transcend the width of the coating is that of the protective tube slightly for example 10% to 30% larger than this executed.

Due to the fact that the material thickness of the coating, which usually consists of plastic, is a multiple of that of the protective tube, the protective tube according to the invention has a cross-section over a mostly rectangular shape predetermined by the coating. In this case, the hose top side of the woven protective tube is embedded in the coating on the underside. Zwi rule the hose top and a hose underside of the protective tube, a receiving slot is formed, in which the lashing or stop means is guided and taken up protective.

in the The invention will be described below with reference to a purely exemplary embodiment drawing closer explains; show it

1 the woven protective tube according to the invention with lashing or slinging means guided thereby and

2 a section through the object after 1 in the area of the protective tube.

In the figures is a woven protective tube 1 shown, which serves to a textile lashing or slinging 2 from damage when securing an item 3 to protect. In addition, the protective hose provides 1 sure that the lashing or slinging 2 towards the object 3 when lashing a relative movement can perform. In principle, the subject in question 3 with the help of lashing or lifting gear 2 lifted, strained, lashed or whatever. Present and non-limiting is the subject matter 3 To a tire, such as a car or truck, which, with the help of textile lashing or slings 2 is set on a loading area, not shown. As a result, the associated car or truck experiences the necessary load securing on the transport surface.

In particular, the lashing or slinging 2 placed over the tire of the car or truck to be secured and by means of end hooks 4 attached to the transport surface. In the area of the object to be secured 3 or tire provides the woven protective tube 1 for that the textile lashing or slinging 2 is not damaged and incidentally in the course of fixing a relative movement relative to the object in question 3 can perform to achieve a uniform force application. The textile lashing or slinging equipment 2 is in a tension ratchet 5 run in, with the help of which the necessary securing forces on the object 3 be exercised.

Within the scope of the invention is the woven protective tube 1 through an outside coating 6 marked, which in comparison to the tubular fabric or to the woven protective tube 1 has higher coefficient of friction. In detail is the coating in question 6 at least at one of the object to be protected 3 arranged facing surface, like the 2 makes it clear. When coating 6 it is a plastic coating, namely one that is advantageously made of polyurethane.

This is the woven protective tube 1 from, for example, a polyester fabric inserted into a mold and by hot casting with the coating in question 6 connected. In addition, friction particles are in the still liquid plastic or polyurethane in the embodiment 7 stored. At the friction particles 7 These are plastic friction particles, especially granulated rubber granules, which are made of natural or synthetic or even recycled plastic. Of course, the invention also includes mixed forms.

Based on the sectional view in 2 one recognizes that the friction particles 7 on the object to be secured 3 facing surface of the coating 6 located and in this area in the coating 6 are embedded. In principle, in addition or as an alternative to the friction particles 7 also powder particles in the coating 6 on the object to be secured 3 facing surface to be total friction coefficient between the coating 6 and the object to be secured 3 to set to values of 0.5 or more.

In contrast, the coefficient of friction between the textile lashing or slinging 2 made of, for example, polyester fabric and the woven protective tube 1 also polyester fabric in the range below 0.2. This ensures that the lashing or slinging 2 when tensioning through the tensioning ratchet 5 inside the woven protective tube 1 can be moved back and forth. Because the much higher friction between the protective hose 1 and the object 3 (due to the coating 6 ) ensures that lashing forces possibly to a relative movement of the lashing or slinging 2 inside the protective tube 1 lead by contrast significantly lower friction.

The 2 makes it clear that the coating 6 has a material thickness which the material thickness of the protective tube 1 or its tubular fabric exceeds many times. In addition, it follows from this illustration that the coating 6 in cross-section has a width B, which is the width S of the protective tube 1 absorbed textile lashing or slinging 2 surpasses. Basically, the width B of the coating 6 also to the width S of the textile lashing or lifting means 2 are adjusted. Most often, the width B exceeds the coating 6 however, the width S of the lashing or slinging 2 slightly, according to the embodiment by about 20%. That is, it applies: B ≈ 1.2 × S.

Finally one recognizes by means of the 2 that the woven protective tube 1 one through the coating 6 has predetermined and substantially rectangular cross-section. It is in the coating 6 on the underside a top or hose top of the protective hose 1 embedded. Between the hose top and a hose bottom is a receiving slot 8th educated. Through the receiving slot 8th becomes the lashing or slinging device 2 passed.

Claims (10)

Woven protective tube ( 1 ) for in particular textile lashing or slinging means ( 2 ), characterized by an outer coating ( 6 ) with a higher coefficient of friction compared to the tubular fabric, wherein the coating ( 6 ) at least on an object to be secured ( 3 ) facing surface is arranged. Protective hose ( 1 ) according to claim 1, characterized in that the coating ( 6 ) is designed as a plastic coating. Protective hose ( 1 ) according to claim 1 or 2, characterized in that the coating ( 6 ) at least on its object to be secured ( 3 ) facing surface embedded friction particles ( 7 ) having. Protective hose ( 1 ) according to claim 3, characterized in that the friction particles ( 7 ) are formed as granules or powder. Protective hose ( 1 ) according to claim 3 or 4, characterized in that the friction particles ( 7 ) are designed as plastic friction particles, in particular Gummigranulatkörner. Protective hose ( 1 ) according to one of claims 1 to 5, characterized in that it is in contact with the coating ( 6 ) is connected by hot casting in a common mold. Protective hose ( 1 ) according to one of claims 1 to 6, characterized in that the coating ( 6 ) has a material thickness of several millimeters and exceeds the material thickness of the tubular fabric by a multiple. Protective hose ( 1 ) according to one of claims 1 to 7, characterized in that the coating ( 6 ) in cross-section one to the width (S) of the protective tube ( 1 ) received textile lashing or slinging ( 2 ) has adapted width (B). Protective hose ( 1 ) according to claim 8, characterized in that the width (B) of the coating ( 6 ) the width (S) of the protective tube ( 1 ) slightly exceeds, for example, 10% to 30%, is greater. Protective hose ( 1 ) according to one of claims 1 to 9, characterized in that it passes through the coating ( 6 ) predetermined, substantially rectangular cross-section into the coating ( 6 ) underside of the embedded tube top and a receiving slot formed between the tube top and tube underside ( 8th ) for the textile lashing or slinging ( 2 ) having.