KR0121748Y1 - Rope - Google Patents

Abstract

It is an object to provide a combination rope in which strands of different stretchability are made to increase the stretchability and are not easily melted and broken.

A plurality of internal strands 21 bound by high tensile low tensile yarn and a plurality of external strands 22 formed by covering and enclosing the surface layer material 221 of the relatively high extensible yarn around the core material 22 of the relatively low extensible yarn are bonded together The combination rope is comprised so that the strand 22 may coat | cover the said internal strand 21.

Description

Combination rope

1 is a partial cross-sectional view showing a first embodiment of the combination rope according to the present invention.

Figure 2 is a partial cross-sectional view of the outer strand showing a second embodiment of the combination rope according to the present invention.

3 is a partial cross-sectional view showing a conventional ship rope.

* Explanation of symbols for main parts of the drawings

21: internal strand 22: external strand

221: surface layer material 222: core material

223: strand 224: center room

225: Outer room

The present invention relates to a rope, and more particularly, to a combination rope having high stretchability.

In general, ropes for tying goods should have good abrasion resistance and good tensile strength to withstand the external forces exerted on them when transporting them. For example, a ship rope used as a ship's oar has one end of the rope fixed to the hull, and when the ship is anchored to the pier, the other end of the rope is hung on the bollard of the pier. It is hanged. However, the hull floating on the sea is drift left and right due to wind and waves. At this time, a very strong tensile force is generated in the rope. If the rope's tensile strength is low, the contact area with the bollard is caused by the strong tensile force of the hull. It wears off or melts due to high frictional heat. That is, in the rope of a single material made by combining a plurality of strands 10 (high tensile low-strength PP yarn) having the same elongation as in the cross-sectional structure diagram of the conventional rope shown in FIG. When pulled, the length is elongated as the tensile force increases, and the rope itself generates heat energy in proportion to the elongated length. Therefore, the conventional rope is continuously subjected to tension under high stress during use, and the contact portion of the rope with the bollard melts and the rope slips and breaks, and the hull breaks out of the bollard and causes an accident. have.

In order to solve the problems of the conventional rope, the present invention aims to provide a combination rope that is not easily melted and the stretchability is increased by tying strands having different stretchability together.

In order to achieve the above object, the present invention is a plurality of interior strands bound with high-strength low-strength yarn and a plurality of the surface layer material of the relatively high-strength thread coated and bound around the core of the relatively low-strength thread. A combination rope is formed by forming two outer strands, and the outer strands are bundled so as to cover the inner strands.

Then, the internal strands are formed of PP material, the surface layer material of the exterior strands is formed of nylon material, the core material of the exterior strands is formed of PP material, or the exterior strands are bundled by a plurality of strands, and they Each strand is formed such that the highly stretchable outer layer chamber covers the periphery of the center chamber with low stretch.

The present invention constructed as described above has a PP material that expands and generates heat when subjected to a strong tensile force. However, since the circumference is covered with a nylon material, the nylon material is interposed between the PP material and the bollard surface, so that By the direct contact of the PP materials, the frictional damage generated between them is alleviated, and the high stretchability of the nylon itself suppresses the generation of heat, which lowers the material strength, and stabilizes the friction state between those bollards and the ship rope.

Other objects, features, and advantages of the present invention will be more clearly understood from the following description with reference to the accompanying drawings.

EXAMPLE

1 is a cross-sectional view showing a first embodiment of the combination rope of the present invention, and as shown, the combination rope 2 of the present embodiment mainly includes the inner strand 21 and the circumference of the inner strand 21. Made of sheathed sheath strand 22, wherein the sheathed strand 21 is made of a high-strength low-strength yarn, and the sheathed strand 22 is formed on a surface layer material 221 of a relatively high-stretchability yarn (e.g., nylon). The outer periphery of the core material 222 of the comparatively low stretchable yarn (for example, PP material) is covered and made. The inner strand 21 and the outer strand 22 are each formed in plural, and a combination rope is formed by being tied together so that the outer strand 22 covers the inner strand 21.

2 is a cross-sectional view of the outer strand 22 showing the second embodiment of the present invention, and as shown in the drawing, the outer strand 22 of the second embodiment is bundled and formed by a plurality of strands 223. These strands 223 are formed by coating a high stretchable outer layer chamber 225 around the low stretchable central chamber 224. The built-in strand 21 is formed in the same manner as in the first embodiment. At this time, the shape and number of each strand 223 constituting the outer strand 22 is determined according to the magnitude of the tensile force of the rope itself.

Therefore, the combination rope according to the present invention covers the high-stretch surface layer material 221 around the low-stretch core 222 to form a plurality of exterior strands 22, and the exterior strands 22 are formed of a plurality of interior strands. (21) It is comprised by covering it, and the highly stretchable surface layer material 221 is formed from a nylon material, the low-extension core material 222 is formed from a PP material, and is made together by tying those nylon materials and PP materials.

Next, the characteristic which combined two types of materials mentioned above is demonstrated. In other words, when a tensile force is applied to a rope made of a combination of these two ashes, when the total extension of the rope reaches 16%, the PP material is placed just before the break, but the nylon material maintains sufficient strength and is affected. The temperature is only slightly increased when the nylon material is 16% inverted, so that the rope melts under high pressure and slips and breaks can be avoided.

Then, the combination ropes of the present invention and the conventional PP material ropes were subjected to dry and wet strength tests, respectively, using ropes having a diameter of 500 mm, and the results are shown in the following table.

The dry strength indicated in the table above is the maximum tensile strength the rope has in the atmosphere, and the wet strength is the maximum tensile strength the rope has in water. Generally, wet strength is slightly lower than dry strength, but PP rope has almost no decrease in wet strength due to its characteristics, so it is close to zero. Therefore, dry strength and wet strength of PP rope are 25.6, respectively. Same as (ton). On the other hand, the combination rope of the present invention has a wet strength 6% lower than the dry strength, the dry strength is 38 (tons), whereas the wet strength is 36 (tons). As can be seen from these figures, the combination rope of the present invention has better dry strength and wet strength than the conventional PP rope, and the maximum tensile strength of the combination rope of the present invention is the maximum tensile of the conventional PP rope. It is higher than strength and, of course, relatively excellent in stretchability.

In addition, when the combination rope of the present invention is applied to a ship rope, it is made of a combination of nylon and PP material, and the PP material plays a main role, and when the cable rope receives a high tensile force, the PP material increases and generates a high temperature. Since the outer surface is covered with a nylon material, the nylon material is interposed between the PP material and the bollard surface to alleviate the frictional damage caused by the direct contact due to the high tensile force between the ship rope and the bollard, The high elongation suppresses the generation of heat that lowers the material strength and stabilizes the friction state between the bollards and the ship ropes. Therefore, it is possible to avoid the phenomenon that the rope of the contact surface between the ship rope and the bollard is melted and slipped and broken.

As described above, when the combination rope according to the present invention is coated with a nylon material on the outside of the PP material, the nylon material is interposed on the surface of the PP material and the bollard when the PP material is extended and generates heat due to the strong tensile force. The frictional damage caused by the direct contact between them is alleviated, the generation of heat that lowers the material strength is suppressed by the high elongation of the nylon itself, the friction state between the bollard and the ship rope is stabilized, and the contact surface between those bollards and the ship rope This melt is effective in preventing the rope from breaking easily.

Claims (4)

Formed of a plurality of internal strands 21 bound with high tensile low stretch yarn and a plurality of external strands 22 coated with the periphery of the relatively low extensible thread core 222 with a surface layer material 221 of a relatively high extensible thread. Combination rope, characterized in that the outer strand (22) is made of a bundle to cover the inner strand (21). The combination rope according to claim 1, wherein the internal strand (21) is made of a PP material. The combination rope according to claim 1, wherein the surface layer material (221) of the exterior strand (22) is formed of nylon material, and the core material (222) of the exterior strand (22) is formed of PP material. According to claim 1, wherein the outer strand 22 is made by combining a plurality of strands 223 are made by combining, each of the strands 223, the high-stretch outer layer chamber 225 is a low-strength center chamber ( 224, characterized in that formed to cover the circumference of the combination rope.