Electricity: conductors and insulators – Conduits – cables or conductors – Insulated
Reexamination Certificate
2001-05-17
2003-05-13
Reichard, Dean A. (Department: 2831)
Electricity: conductors and insulators
Conduits, cables or conductors
Insulated
C174S12100B
Reexamination Certificate
active
06563054
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to lifting or traction cables, particularly cables for elevators, which is to say cables which support the elevator cabin and transmit to it the movement of the drive drum.
The characteristics required for these cables are particularly high flexibility, good diametric regularity ensuring regular permanent elongation, and high resistance to abrasion, because the drive is ensured by friction between the cable and the drum. For supplemental explanation of the characteristics required for such cables and the constraints they must satisfy, reference can be had for example to French patent application filed under No. 93 08648.
The type of conventional cable used for such applications is a composite cable of eight strands of steel wire wound helically on a core of natural textile of hard fibers, such as sisal. There is also known a similar cable, but whose core itself is composite, namely constituted by metallic strands and textile filler fibers.
Traction cables for elevators can also be cables with metallic strands on a metallic core, independent or not. There are also known cables with twelve external strands wound on an independent core of the Warrington type, or again cables with nine external strands on an independent metallic core which itself has nine strands.
In other lifting applications, there are also used cables comprising natural fibers of the sisal type, or synthetic (polypropylene) fibers, whose role is to form a pad inserted between the different layers of strands. It is also sought to avoid or at least limit the friction of the filaments or strands against each other, and the risks of indentation, so as to improve and maintain the flexibility of the cable, and to avoid breaking of the filaments.
There is also known, from International patent application WO 89/11 559, a cable whose central core of elastomer or polymer serves as a support for the winding of the strands and comprises for this purpose helical grooves to receive them. The core can be hollow at the center to receive reinforcing elements.
A common point of these inserts of non-metallic material is that they do not take part directly in resisting the tension in the cable, which is to say that they do not contribute directly to increasing the resistance to traction of the cable.
There are also known, for example from U.S. Pat. No. 5,566,786, cables adapted to serve as traction cables for elevators, and which are constituted solely by synthetic fibers adapted to transmit tractive force. Such a cable has in particular the advantage of a linear mass lower than steel or composite cable, of equivalent strength. It however has the drawback of requiring important modifications relative to more conventional cables as to its use and control. For example, a system of special anchoring, very complicated, is required. Moreover, the condition of a layer of the synthetic fibers cannot be monitored, as for steel cables, by electrical or electromagnetic methods. It has been provided to insert in the synthetic fibers electrically conductive carbon fibers, whose monitoring of the conductivity permits obtaining the condition of wear of the cable. But this increases the complexity of the cable, hence the cost. Moreover, these cables can also have other drawbacks, for example poor transmission by adherence between the cable and the drive drum, or increased risk of deliberate cutting by vandalism.
SUMMARY OF THE INVENTION
The present invention has for its object to solve the problem set forth above. It seeks in particular to provide a lifting or traction cable which has, for equal weight, a considerably increased resistance to rupture relative to all steel cables or to known composite cables, permitting particularly, for the same weight, increasing the useful load as well as the height of the path of the elevators, or, for an equal load, to decrease the number of strands or the diameter of the cables used.
With these objects in mind, the invention has for its object a composite cable comprising a plurality of strands wound about a core of synthetic material, characterized in that the core is constituted by a nucleus formed by a bundle of parallel synthetic fibers extending in the longitudinal direction of the cable, and by a compact sheath of thermoplastic material enclosing said nucleus and serving as a winding support for the strands.
The principle of the invention being equally applicable to a cable in its more simple construction, which is to say a single strand, the invention also has for its object a composite strand comprising a plurality of external filaments would about a core of synthetic material, this strand being characterized in that the core is constituted by a nucleus formed by a bundle of parallel synthetic fibers extending in the longitudinal direction of the strand, and by a sheath of thermoplastic material enclosing said nucleus and serving as a winding support for the filaments.
As will be understood, the invention resides in its essential characteristics, in the presence of a composite synthetic core with two components disposed concentrically: a compact sheath which is deformable by radial compression (or thermoplastic) which tightly surrounds a central nucleus formed by a bundle of individual fibers, also of synthetic material, substantially continuous throughout the length of the cable, and arranged so as to take part effectively in any tractive force exerted on the cable by a load.
In contrast thereto, in known composite cables, the synthetic material serves as padding, to ensure holding the strands or filaments relative to each other across the section of the cable, and thus to avoid for example friction of the metallic filaments on each other or even indentations arising from radial pressure which can be exerted between the filaments or strands when the cable is tensioned, but it gives practically no supplemental contribution to tractive strength.
To participate effectively in the tractive strength, the cross section and the number of fibers of the cable or strand according to the invention are determined such that the core forms with the filaments or metallic strands an assembly such that the deformation under load, principally an elongation, is substantially equivalent for the core of synthetic fibers and for the external metallic strands or filaments, despite the differences in the mechanical characteristics of these materials. Moreover, the sheath surrounding the fibers is of a deformable but hardly compressible material, such that this material flows during production of the cable or of the strand to fill the free spaces between the core and the strands or filaments of the layer directly surrounding the core. There results therefrom a radial pressure exerted by the external strands or filaments on the sheath, and resultingly on the peripheral layer of the fibers of the core, which creates a strong adherence, or sort of mechanical cohesion, between the filaments or strands and said fibers, which ensures transmission between them of tractive forces. Moreover, the friction between the fibers, which is further increased by the radial compressive effect exerted by the external strands or filaments, permits transmitting at least in part, progressively to the center of the core, the traction forces to which the peripheral layer is subject, such that all the cross section of the core can take part in absorbing the tractive load to which the cable is subjected.
The sheath serves particularly to maintain the parallel fibers together, by ensuring the compactness of the core.
It will be noted that the transmission of forces between the external strands or filaments and the core, is further ensured by friction between the sheath and said external strands or filaments to the extent these penetrate into the material of the sheath, because this increases the contact surface.
Moreover, the sheath constitutes an intermediate layer between the external strands or filaments and the core fibers, which avoids or at least limits the shearing effect on the fibers,
Damien Jean-Pierre
Damien Mayse
Laboure Patrick
Damien Mayse
Mayo III William H.
Reichard Dean A.
Trefileurope
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