Patent Grant
9845572
The present invention relates to a core-sheath rope, comprising a textile core with one or several stationary threads extending in the longitudinal direction, an outer sheath provided in the form of a hollow braid, and an inner sheath provided in the form of a hollow braid and surrounding the core.
Core-sheath ropes are known and described, for instance, in AT 358.433B, WO 2003/27383 A, WO 2005/085518 A, DE 40 35 814 A1, U.S. Pat. No. 4,312,260 A and DE 40 38 161 A.
In existing core-sheath ropes, the inadequate connection between core and sheath turns out to be problematic. In particular, a relative displacement of core and sheath may occur when the rope is in use. Said displacement leads to undesirable slubs, poor force transmission from the sheath into the core and excessive stress in the sheath, as a result of which the sheath may even be torn. There are different approaches to the problem of preventing this core-sheath displacement:
One possibility is to use an adhesive or an adhesive tape (see, e.g., DE 40 38 161 A or GB 891,741). The gluing, however, is not lastingly durable, and, in addition, it prevents any relative motion between the core and the sheath, thus leading to a stiffening of the ropes and hence to poor knotability.
Furthermore, it is known to bring the core and the sheath into a more intimate contact by connecting threads from the core with threads from the sheath or by additional transverse threads (see, e.g., WO 2003/27383A, WO 2005/088518A).
In Documents EP 2 239 359 A1, DE 10 2007 063 052 A1, DE 131208 C and DE 223466 C, braiding machines are described wherein, as a result of appropriately arranging the braiding bobbins, thread changes are provided to the effect that threads will change from the outer area of the rope (e.g., an outer sheath) into the inner area (e.g., an inner sheath) and vice versa. Likewise, an interlacing between outer and inner threads may be provided according to those documents.
EP 2 063 018 describes a strand element with a central core made of a silicone material which is encompassed by a textile sheath. From WO 2006/055995, it is known to provide the individual elements of a rope with a reinforcement. Further prior art is disclosed in FR 334.887, U.S. Pat. No. 2,600,395 A, DE 25 41 763 A and U.S. Pat. No. 4,192,127 A.
There is still a need for core-sheath ropes with satisfying performance characteristics, in particular with regard to the stability of the connection of the core and the sheath throughout the entire service life of the rope.
There is also the fact that, in core-sheath ropes of which the core is composed of several threads extending in the longitudinal direction, said core has little dimensional stability. If the sheath is imaginarily removed, the core disintegrates into its individual threads extending in the longitudinal direction. Hence, a force transmission from the sheath onto all the threads forming the core can occur only to an insufficient extent, but not all the threads forming the core are used equally for taking up a load.
The present invention provides a core-sheath rope, comprising a textile core with one or several stationary threads extending in the longitudinal direction of the rope, an outer sheath provided in the form of a hollow braid, and an inner sheath provided in the form of a hollow braid and surrounding the core, said rope being characterized in that at least part of the stationary threads of the core are braided individually into the hollow braid of the inner sheath.
For the purposes of the present invention, the term “threads” is understood to mean the filamentary components of a rope such as, e.g., twines or braided elements. A thread may thereby be composed of several adjacent elements such as, e.g., several adjacent twines, the adjacent elements taking the same course across the entire rope.
In the following, the term “stationary threads” denotes threads which—unlike the threads of the inner and outer sheaths—extend entirely in the longitudinal direction of the rope.
According to the invention, at least some of the core's stationary threads extending in the longitudinal direction of the rope are braided individually into the hollow braid of the inner sheath. As explained above, the term “thread” thereby covers also a plurality of adjacent rope elements such as, e.g., a bundle of several adjacent twines originating from a single aperture.
In contrast to suggestions according to which all stationary threads of the core are enlaced by the sheath or, otherwise, individual stationary threads exhibit a reinforcement, but are not connected to each other, according to the invention stationary threads of the core are thus braided into the hollow braid of the inner sheath. This leads to a better connection and integration of the core into the inner sheath.
Preferably, some of the stationary threads of the core are not braided individually into the hollow braid of the inner sheath.
In particular, the stationary threads which are not braided individually into the hollow braid of the inner sheath are preferably arranged in the centre of the core.
In said embodiment, stationary threads of the core are thus provided in the centre of the core without any interconnection and without being braided into the inner sheath, while further threads are braided into the hollow braid of the inner sheath.
In a further preferred embodiment of the rope according to the invention, thread changes between threads of the inner sheath and threads of the outer sheath and/or enlacements between threads of the inner sheath and threads of the outer sheath are provided in certain places.
In said variant of the present invention, it is particularly preferred if in the places of thread changes or enlacements bridge threads extending in the longitudinal direction of the rope are provided, respectively, with the threads of the outer sheath and the inner sheath, respectively, which change from the inside to the outside and from the outside to the inside, respectively, being guided around those bridge threads.
Starting from the thread changes between threads of the outer sheath and the inner sheath as well as on enlacements between threads of the outer sheath and the inner sheath as described in the above-cited documents, in said preferred embodiment of the invention, additional stationary threads (bridge threads) extending in the longitudinal direction are provided in the places of a thread change or an enlacement, respectively.
Thereby, the following possibilities are conceivable:
Preferably, the bridge threads are enlaced by the threads of the inner sheath and the threads of the outer sheath.
However, in all cases, the bridge threads provided according to the invention are embraced both by the threads of the outer sheath and the threads of the inner sheath and thus form a bridge between the outer sheath and the inner sheath. At the same time, the (load-bearing) bridge thread remains in the pulling direction so that it will contribute to the breaking load of the rope, which is determined primarily by the threads in the pulling direction.
Of course, the threads of the inner sheath and the threads of the outer sheath can be guided around the bridge thread also several times and, subsequently, they either can continue to be guided in their original position or they can change position from the outside to the inside and vice versa.
Preferably, the bridge threads consist of the same material as the stationary threads of the core.
In a further preferred embodiment, the core-sheath rope according to the invention comprises threads which differ from each other by way of one or more properties.
Particularly properties such as colour, titre, fibre type (e.g., monofilament, staple fibre, multifilament), fibre material (e.g., polyamide, aramide, HMW-PE) or structure (e.g., twines of different folding numbers and/or rotations) are considered here.
For example, the threads which are guided initially in the inner sheath and the threads which are guided initially in the outer sheath may have different colours. In this way, the changes can be made identifiable from the outside in terms of colour. Length markings on the rope are also possible through colour changes. Threads having different properties, in particular colours, may also be provided within the thread material of the inner sheath and/or the outer sheath.
In a further preferred embodiment, the core-sheath rope according to the invention comprises threads of different fineness. For example, the threads which are guided initially in the inner sheath and the threads which are guided initially in the outer sheath can be of different fineness (titres). Large differences in fineness will lead in particular to intentional irregularities in the rope and varying roughness at a thread change.
Preferably, the core-sheath rope according to the invention comprises further stationary threads extending in the longitudinal direction of the rope and braided individually into the hollow braid of the outer sheath. Thus, further tensile-load-bearing elements are provided in the outer region of the rope, which are intimately connected to the threads of the sheath, in this case the outer sheath, also by being enlaced by these threads.
The bridge threads and/or the stationary threads of the outer sheath may consist of the same material as the stationary threads of the core.
Apart from that, all materials familiar to a person skilled in the art may be chosen for the rope according to the invention.
The rope 1 comprises a core 2 with several core threads (stationary threads) 21-28. An inner sheath 4 is located around those stationary threads. Furthermore, an outer sheath 3 is provided.
The inner sheath 4 and the outer sheath 3 are formed by braids in a manner known per se, wherein the threads of the inner sheath and the threads of the outer sheath, respectively, are interlaced with each other by means of braiding bobbins (not illustrated). In a known manner, the braiding bobbins are arranged on driving wheels (not illustrated). For the production of the inner sheath, 12 braiding bobbins can be provided, for example, of which 6 bobbins are guided in the Z-direction and, respectively, 6 bobbins are guided in the S-direction. The thread paths resulting therefrom are indicated by solid and dashed lines, respectively. The same applies analogously to the outer sheath. Only exemplarily, two threads of the inner sheath are indicated by reference numerals 41 and 42, and two threads of the outer sheath by reference numerals 31 and 32.
According to the invention, some of the core's stationary threads are braided individually into the hollow braid of the inner sheath. This is illustrated in
Moreover, in the embodiment illustrated in
Positions for thread changes and enlacements, respectively, are illustrated by reference numerals 5 and 6, wherein, as explained above, according to a preferred variant of the present invention, threads of the outer sheath change into the inner sheath and vice versa and/or threads of the outer sheath and threads of the inner sheath are interlaced with each other. This is achieved, as known per se, by appropriately positioning two braiding bobbins (not illustrated) on a driving wheel (not illustrated).
According to the preferred embodiment of the present invention, bridge threads 51 and 61 are now arranged in the thread-change positions 5 and 6 in such a manner that they end up lying between the threads changing from the outside to the inside (and vice versa) or, respectively, between the threads embracing each other. With regard to the equipment, this is implemented by providing an aperture in the driving wheel in charge of the thread change or the enlacement, respectively.
After the rope has been finished, those bridge threads are thus intimately connected to the threads of the inner and outer sheaths and in this way provide for an even better connection between those two elements, while simultaneously increasing the breaking load of the rope.
The exact method of the thread change and the enlacement, respectively, now depends, on the one hand, on by how many degrees the braiding bobbins are guided around each other on the driving wheels of thread-change positions 5 and 6 and also, on the other hand, on as to whether the threads of the outer and inner sheaths, which threads change with each other or, respectively, interlace with each other, are guided in the opposite or in the same direction.
As to whether the threads of the outer and inner sheaths changing with each other or, respectively, interlacing with each other, are guided in the opposite or in the same direction depends on the direction of rotation of the driving wheels of the inner sheath and the outer sheath, respectively: If the driving wheels are guided in opposite directions, the threads of the inner and outer sheaths, which threads changing with each other or, respectively, interlacing with each other, will be under a guidance in the same direction and vice versa.
A few possible variants are explained on the basis of
Therein, the course of a thread (A) which (at first) is located in the outer sheath is schematically illustrated with a thick dotted line and the course of a thread (I) which (at first) is located in the inner sheath is illustrated with a thick dashed line, in each case, in the area of the thread-change position 6. The moving direction of the threads (A) and (I) on the braiding machine, namely in a clockwise direction or in an anti-clockwise direction, is indicated, in each case, with arrows in the region of the inner sheath and the outer sheath, respectively.
According to the invention, it is preferred if the threads of the outer sheath and the inner sheath, which change with each other or, respectively, interlace with each other, are guided in opposite directions.
Similarly as with the stationary threads 21 to 26 of the core, stationary threads in the longitudinal direction may also be provided in the region of the outer sheath, with the threads of the outer sheath being braided around those stationary threads. This is illustrated in
| Number | Date | Country | Kind |
|---|---|---|---|
| A 395/2012 | Mar 2012 | AT | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2013/055924 | 3/21/2013 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2013/143966 | 10/3/2013 | WO | A |
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| Entry |
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| International Preliminary Report on Patentability for PCT Application Serial No. PCT/EP2013/055924 dated Oct. 1, 2014. |
| Number | Date | Country | |
|---|---|---|---|
| 20150059563 A1 | Mar 2015 | US |
