JP2007332497A - Shock-absorbing rope - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide shock-absorbing rope with no need of being furnished with any shock absorber as a separate constituent, enabling the rope itself to absorb a shock, thus capable of omitting its setup operation. <P>SOLUTION: The shock-absorbing rope is such that multiple elastic balls 13 are disposed at predetermined intervals so as to included in braid rope 12 braided with multiple fiber strands 11 or in rope with such a structure as to be made by twisting multiple side strands 21. In the shock-absorbing rope, the respective elastic balls 13 are consecutively connected together by a linear connective material 14 in the form of strand, rope, wire, tube, etc., wherein each of the elastic balls 13 is substantially spherical or ellipsoidal and also elastically deformable when subjected to compressive force of predetermined level or higher from the strands. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a rope capable of absorbing an impact when a tensile load is applied.

An apparatus for absorbing an impact when a tensile load is applied to a rope suddenly has been proposed in various uses and modes. For example, Patent Document 1 discloses an apparatus that is applied to a mooring rope for a ship. . This shock absorber is provided so that a plurality of rubber balls are restrained by metal fittings in the casing. When a wire rope is connected to these metal fittings and a tensile load acts on the wire rope, the metal fitting is pulled by the wire rope. A plurality of rubber balls are compressed, and the impact of the tensile load is absorbed by the elastic force of the rubber balls. This shock absorbing device is fixed to a plurality of locations in the ship with a locking tool, connected to the mooring wire rope of the ship to one side and fixed to the mooring stop on the quay of the port, and to the other side through the wire rope. It is connected to the anchor, and such an installation work is troublesome because it takes time, and there is a disadvantage that the cost is not small.
Japanese Patent Laid-Open No. 10-59274

  Therefore, in view of the above-mentioned problems of the prior art, the present invention eliminates the need to provide a shock absorber separately configured on the rope, the rope itself can absorb the shock, and the labor of the mounting work can be saved. An object of the present invention is to provide a shock absorbing rope that can be used.

  In the present invention, an elastic body is arranged so as to be wrapped inside a braided rope formed by braiding a plurality of strands made of fibers or a twisted rope formed by twisting a plurality of strands, and the elastic body is substantially spherical. Alternatively, an impact buffering rope that is formed in an elliptical shape and is elastically deformable when subjected to a compressive force of a predetermined level or more from the strand is provided.

  Further, in the present invention, a plurality of elastic bodies are arranged so as to be wrapped at predetermined intervals inside a braided rope obtained by braiding a plurality of strands made of fibers, or a rope having a twisted structure formed by twisting a plurality of strands. The body is connected in series by a connecting member formed in a linear shape such as a strand, rope, wire, or tube, and each elastic body is formed in a substantially spherical or elliptical shape, and receives a predetermined compression force or more from the strand. In such a case, an impact buffering rope that is formed to be elastically deformable is provided.

In the present invention, the braided rope can be composed of strands made of fibers, while the twisted rope can be composed of either one or both of strands made of fibers or wires.
In the present invention, the elastic body may be a sphere or an elliptic sphere formed from an elastic material such as synthetic rubber such as urethane rubber or natural rubber.

The impact buffering rope of the present invention is arranged so that the elastic body is wrapped in the middle, and the strand is braided or twisted so as to bypass the elastic body, and the location where the elastic body is located is the elastic body. It swells larger than there is no part. Therefore, when a tensile load is applied to the impact buffering rope, the strand that bypasses the elastic body is displaced in the direction of reducing the rope cross section, and compresses and deforms the elastic body. At this time, even if the strand itself does not expand, the section around the elastic body is displaced so as to be extended like the section without the elastic body. The length is slightly extended. When the rope is stretched slightly, and the strand receives resistance due to the elastic force of the elastic body when stretched, the impact due to the tensile load acting on the impact buffering rope is buffered.
As described above, the impact buffering rope of the present invention is manufactured by arranging the elastic body so as to be wrapped in advance, and the rope itself can absorb the impact, and separately as in the conventional example. Since the constructed shock absorbing device is not attached to the rope, it is possible to save the trouble of attachment work.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited thereto.

FIG. 1 shows an impact buffering rope 10 according to the first embodiment of the present invention, in which (a) is a perspective view, (b) is a cross-sectional view taken along line BB, and (c) is a cross-sectional view taken along line CC. is there.
The impact buffering rope 10 in FIG. 1 is a braided rope 12 formed by knitting two strands 11 as a pair, 12 sets for right twist and 12 sets for left twist, respectively. This braided structure is not limited to the embodiment shown in FIG. 1, and may be, for example, 8 strokes (1 × 8 or 2 × 4), 12 strokes (1 × 12 or 2 × 6), and the like. Each strand 11 is formed by collecting a predetermined number of yarns, and each yarn is formed by collecting raw yarns having relatively low elongation and high tensile strength. Examples of the fibers constituting the raw yarn include ultra high molecular weight polyethylene fibers, aramid fibers, polyamide fibers, and polyester fibers.

As shown in FIGS. 1B and 1C, the braided rope 12 can secure a cylindrical cavity 15 inside, and natural rubber or synthetic rubber (urethane rubber) can be provided in the cylindrical cavity 15. An elastic sphere 13 made of an elastic material such as) is disposed. A plurality of elastic spheres 13 are preferably arranged at a predetermined interval. As shown in FIG. 1 (d), those connected in series by a linear connecting material 14 such as a fiber strand or a wire are used. By using the elastic spheres 13 connected in series by the connecting member 14, it is not necessary to individually handle the plurality of elastic spheres 13 at the time of manufacture, and thus the manufacture of the shock absorbing rope 10 can be simplified.
That is, the shock absorbing rope 10 is manufactured by inserting a plurality of elastic spheres 13 connected in series into a cylindrical hollow portion 15 of a braided rope 12 formed in advance, or a plurality of previously connected series of elastic spheres 13. It is possible to manufacture the braided rope 12 by knitting the strand 11 on the outer side so as to wrap the elastic sphere 13, and the elastic sphere 13 can be individually handled and braided by any manufacturing method. Since it is not necessary to arrange the ropes 12 at predetermined intervals in the cylindrical hollow portion, an improvement in productivity can be expected.

Next, FIG. 3 is a simplified cross-sectional view in the axial direction for explaining the operation of the impact buffering rope 10, and in particular, FIG. 3A shows a state where no tensile load is applied to the impact buffering rope 10. 3 (b) shows a state in which a tensile load is acting.
Since the impact buffering rope 10 is provided with the elastic sphere 13 in the cylindrical hollow portion 15 of the braided rope 12, the location where the elastic sphere 13 is present is shown in FIGS. 1 (a) and 3 (a). Thus, it is in a state in which it swells larger than the portion without the elastic sphere 13. That is, in the section D in which the elastic sphere 13 is present, the strand 11 detours along the spherical surface of the elastic sphere 13. Therefore, the strand per unit length in the rope axis direction is longer than the section without the elastic sphere 13. The length of 11 becomes longer.
When a tensile load is applied to such an impact buffering rope 10, a force is applied to each strand 11 so as to return to a linear state within the limit constrained by the braid. As a result, the section D in which the elastic sphere 13 is present. Then, the strand 11 is displaced in a direction to reduce the rope cross section, and compresses and deforms the elastic sphere 13. That is, the length of the strand 11 required for detouring the elastic sphere 13 decreases, and the length in the rope axial direction increases accordingly, so that even if the strand 11 does not stretch itself, The length is slightly extended. The rope 11 is slightly stretched, and the strand 11 receives elastic resistance from the elastic sphere 13 when stretched, so that the impact due to the tensile load acting on the impact buffering rope is buffered.

Next, FIG. 2 is an impact buffering rope 20 according to the second aspect of the present invention, in which (a) is a perspective view, (b) is a cross-sectional view of a BB line portion, and (c) is a CC line portion. FIG.
2 is a rope having a twisted structure in which 18 side strands 21 are twisted around a core strand. As the core strand, the connecting material 14 shown in FIG. 1 (d) for connecting a plurality of elastic spheres 13 in series at a predetermined interval is used, and as the side strand 21, a fiber strand or a wire strand is used. Note that the side strands are not limited to 18 as shown in FIG. 2, and other twist numbers such as 6 and 36 can be used. Moreover, when making a core strand and a side strand into a fiber strand, it can be comprised from the fiber similar to a 1st aspect.

  Since the operation of the impact buffering rope 20 is the same as that of the impact buffering rope 10, simply described, since the elastic sphere 13 is disposed inside the side strand 21, FIGS. 2 (a) and 3. As shown to (a), the location in which the elastic sphere 13 exists is in the state swelled more largely than the location without the elastic sphere 13. Further, the side strand 21 also detours along the spherical surface at the place where the elastic sphere 13 is present, and when a tensile load acts on the impact buffering rope 20, the side strand 21 becomes elastic sphere 13 like the impact buffering rope 10. Is compressed and deformed, and the length as a rope is slightly extended. In this manner, as with the impact buffering rope 10, the impact due to the tensile load acting on the impact buffering rope 20 is reduced.

It is a 1st aspect of the impact buffering rope of this invention, (a) is a perspective view, (b) is sectional drawing of a BB line part, (c) is sectional drawing of a CC line part. It is a 2nd aspect of the impact buffering rope of this invention, (a) is a perspective view, (b) is sectional drawing of a BB line part, (c) is sectional drawing of a CC line part. It is a simplified diagram of an axial section for explaining an operation of an impact buffering rope of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Impact buffer rope 11 Strand 12 Braided rope 14 Connecting material 15 Cylindrical cavity part 13 Elastic sphere (elastic body)
20 Impact buffering rope 21 Side strand

Claims (2)

  It is arranged so that an elastic body is wrapped inside a braided rope formed by braiding a plurality of strands made of fibers or a twisted rope formed by twisting a plurality of strands, and the elastic body is substantially spherical or elliptical An impact buffering rope which is formed and is formed so as to be elastically deformable when subjected to a predetermined compressive force from the strand.   A braided rope formed by braiding a plurality of strands made of fibers, or a rope having a twisted structure formed by twisting a plurality of strands, and arranged so that a plurality of elastic bodies are wrapped at a predetermined interval. Are connected in series by a connecting member formed in a linear shape such as a wire or a tube, and each elastic body is formed in a substantially spherical or elliptical shape, and is elastically deformed when subjected to a compressive force of a predetermined level or more from the strand. An impact buffering rope that can be formed.

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