CZ17682U1 - Quick-stranding cable - Google Patents

Description

High-speed rope

Technical field

The utility model relates to a rapid-rope rope solution which is used for the rapid landing of persons from a helicopter to the places of their rescue or special tasks, without the need to land the helicopter. High-speed rope with eye loops and suspension loops along its length also allows easy attachment of people and material to the rope and their rapid transport during evacuation from dangerous and endangered areas.

BACKGROUND OF THE INVENTION

Presently, high-speed ropes are known and used, which are made of polyamide spun multifilament fibers. The individual polyamide fibers are jumped from twisted polyamide yarn, with the winding direction referred to as the twist thread S and the winding direction to the left referred to as the twisting thread Z. These yarns are the basic feedstock for the production of high-speed rope strands. also produced by winding a specified number of twisted polyamide yarns. The actual high-speed rope is usually made up of eight strands, namely four strands in the S-twist and four strands in the Z-twist, which corresponds to the eight-strand braided structure of the high-speed rope L, according to the currently valid technical standard EN ISO 1140: 2005. High-speed ropes are usually terminated by a loop - eye. Several types of rope endings are known, the design of which is generally dependent on the technology used by the manufacturer of high-speed rope. However, all existing terminations of high-speed rope are a modification of two basic types. One type is a braided eye with textile protection, in which the individual ends of the strands are entangled back between the individual strands of the rope, thereby forming an eye. The second type of rope ending consists of a metal ending with a lifting eye, the metal ending as a separate element being mechanically fixed at the end of the high-speed rope. High-speed ropes are in some cases fitted with braided loops along their length, which are made of braided ropes and which are used to hang people on the rope when they are evacuated.

The disadvantage of the existing high-speed rope is the relatively low lifetime, caused by extreme loading, in particular by abrasion of parts of equipment and equipment of the abseiling person. Another disadvantage is the excessive size and length of the braided eye, which makes it difficult to enter the rope. Therefore, it is an effort to develop a high-speed rope with a longer lifetime and at the same time to make it easier for people to get on the rope and thus a higher utility value of the rope.

The essence of the technical solution

This object fulfills the high-speed rope according to this utility model, which consists of eight separate strands of twisted polyamide multifunctional thread. Of these eight strands, four strands have a yarn wound in the right-hand direction; in the S-twist and the four strands have the yarn wound in the left-hand direction; in the Z-twist. The high-speed rope is provided with an eye at the end. In some cases it is provided with suspension loops along its length. The essence of the high-speed rope solution consists in that the threads of each strand are arranged parallel to each other and form the core of the strand, which is sheathed by a braid consisting of a combination of polyamide or polyester multi40 parliamentary and staple thread. The present invention furthermore relates to the following specific embodiments of a high-speed rope: The rope loop is formed by four strands of rope each of which a twist of S-thread is connected by a strength seam to one twisted-sliver. eye of a flat shape, which is covered with a protective coating. The suspension loops consist of straps, the ends of which are inserted perpendicularly between the strands of the rope and the protruding ends of the straps are connected to each other by stitching.

The solution according to the utility model achieves better technical characteristics of high-speed rope, especially increased resistance to its abrasion, thereby increasing the service life of the rope, the ropes have better

Handling and also better surface properties, in particular, are more pleasant to the touch. At the same time, the utility model solution makes it possible to reduce the size of the rope of the rope to the necessary extent, which contributes to increasing the safety of the users of the rope when grasping it prior to abseiling on the rope. The new suspension loop solution has the advantage that the loops do not interfere with rappelling.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings show an exemplary embodiment of a high-speed rope according to a utility model. Fig. 1 shows an end section of a rope with an eye; Fig. 2 shows a cross-section of a rope strand; Fig. 3 shows a planar eye formed from a strand of rope; Fig. 5 shows an embodiment and attachment of a rope suspension loop.

Example of technical solution

The high-speed rope according to the utility model is made, as in previous ropes for this purpose, from polyamide spun multifilament yarns, which are jumped from twisted polyamide yarn also in S-twist and Z-twist. strength and diameter of the rappel rope are made by individual strands 2 of the rappel rope. The braided rope itself consists of eight strands 2, namely four strands 2 in the S-twist and four strands 2 in the Z-twist, which satisfies the condition for the eight-strand braided structure of the L-type quick-rope, according to the technical standard EN ISO 1140: 2005. In this exemplary and illustrated embodiment, each strand 2 has twenty threads I, the strands 2 are intertwined with a pitch of 3.3, the diameter of the rope being dependent on the number of threads 1 in the strand 2 and in this construction of the exemplary embodiment, see Fig. 1 , a rope of 40 mm diameter is formed. Newly, in the high-speed rope according to this utility pattern, the threads and each sliver 2 are arranged parallel to each other, forming the core 5 of the sliver 2, which is sheathed by a braid 4 composed of a polyamide or polyester multifilament yarn. The rope loop 3 is formed by four rope strands 2, of which each strand 2 of twist thread I is connected by a strength seam 6 to one strand 2 of twist thread 1, as shown in FIG. 4. The strands 2 of the strand 3 are arranged side by side, as shown in FIG. 3, thereby creating a flat shape eye 3 which is covered with a protective coating 7 of polyester fabric as shown in FIG. 1. The eye 3 is secured against stretching of the eye 3 in the strand of the rope strands 2. a hose sleeve 8, which is threaded on the surface of the high-speed rope, at the end of the entanglement of the strands 2 and their haunches into the shape of an eye 3, as can be seen from Fig. 1 In the exemplary embodiment, the high-speed rope is provided along a length of several suspension loops 9, which are formed by textile straps, the ends of which are inserted perpendicularly between the strands 2 of the rope. The protruding and protruding ends of the straps are connected to each other by the stitching 10 as shown in FIG. 5.

Claims (3)

1. A high-speed rope consisting of eight separate strands of twisted polyamide multifilament yarn, of which four strands have a twisted yarn S and four strands in a Z twist, which is provided with an eye at the end and generally provided with slings along its length, characterized in that the threads (1) of each strand (2) are arranged parallel to each other and form a core (5) of the strand (2), which is sheathed by a braid (4) formed by a combination of polyamide or polyester multifilament yarn and staple yarn. High-speed rope according to claim 1, characterized in that the rope eye (3) consists of four rope strands (2), of which the strands (2) of the twist thread S are connected to one another by means of a strength -2GB 17682 U seam (6) with strands (2) of yarn (1) in a Z-twist, and in this connection the strands (2) are arranged side by side so as to form a flat-shaped eye (3) which is sheathed with a protective coating ( 7). High-speed rope according to claims 1 or 1 and 2, characterized in that the suspension loops (9) are formed by perpendicular insertion of the strap between the rope strands (2), and by a gentle connection of the inserted ends of the strap by means of stitching (10).