CN205529646U - 12 strands of two braided cable ropes of high performance combination - Google Patents

Abstract

The utility model discloses a 12 strands of two braided cable ropes of high performance combination, establish the hawser main part on the heart yearn including heart yearn and cover, the buffer layer is still established with the hawser main part to the heart yearn, the hawser main part includes winding stranded main rope thigh of each other, the main rope thigh is twisted with the fingers by two cause basalt fiber and is made and parallel vice rope strand, vice rope strand parallel of each other in the thread thigh. Only intensity is high, high temperature resistant, the durability is good, corrosion -resistant for basalt fiber, do not absorb water, dielectric properties is good, protects against radiation, has certain inhale the ripples and pass through also moderate characteristics of comprehensive properties, price / performance ratio such as ripples. And basalt fiber's tensile strength is 3000~4800Mpa to it still has good fire behavior to make in reinforcing hawser intensity. And the hawser main part is woven by stranded main rope thigh and forms, and the main rope thigh is twisted with the fingers by two cause basalt fiber that make and parallel vice rope strand constitutes, and this kind of hawser is woven under the structure at this kind, have when satisfying intensity pliability and weight gently, the volume is less.

Description

High-performance combines 12 strands of double weave ropes

Technical field

This utility model relates to a kind of rope, more specifically, it relates to a kind of high-performance combines 12 strands of double weave ropes.

Background technology

Rope is quoted widely in the every field in life, and in industries such as some boats and ships, logistics, heavy industrys, the rope of some high intensity is necessary.

At present, the hawser of the most high intensity on market does not reaches standard mostly in technical standard, owing to the equipment quality of the industry such as boats and ships, ocean engineering is bigger, rope is needed to have enough tensile strength, also need to stronger fire protecting performance, and often because production requirement is the most up to standard or material is undesirable, so that the fire prevention of hawser can not be had both with intensity in existing hawser.

Utility model content

The deficiency existed for prior art, the purpose of this utility model is to provide a kind of high intensity, resistant to elevated temperatures high-performance to combine 12 strands of double weave ropes.

For achieving the above object, this utility model provides following technical scheme: a kind of high-performance combines 12 strands of double weave ropes, and including heart yearn and the hawser main body being set on heart yearn, described heart yearn and hawser main body also set cushion；Described hawser main body includes the main rope strand of multiply being wound around mutually；Described main rope strand is twisted into and parallel secondary rope strand by basalt fibre by two；Secondary rope strand in described main line stock is parallel to each other.

By using technique scheme, basalt fibre only has that intensity is high, high temperature resistant, good endurance, corrosion-resistant (acid-fast alkali-proof), do not absorb water, dielectric properties good, radioprotective, have certain inhale the combination property such as ripple and wave transparent, feature that cost performance is the most moderate.And the tensile strength of basalt fibre (filament strength) is 3000 ~ 4800Mpa, so that also there is good fire protecting performance while strengthening hawser intensity.And hawser main body is formed by the braiding of multiply main rope strand, and main rope strand is twisted into by basalt fibre by two and parallel secondary rope strand is constituted, this hawser under this braiding structure, great pliability and lighter in weight, small volume while meeting intensity.

Preferably, described heart yearn is twisted into by superhigh molecular weight polyethylene fibers, is embedded with multiply metal wire in described heart yearn.

By using technique scheme, superhigh molecular weight polyethylene fibers has superior anti-tensile and relaxes and toy fatigue behaviour and the performance such as aging resistance, resist chemical, hawser is when equivalent diameter, intensity is identical with wirerope, and equal disrumpent feelings strength when, the weight of every meter of hawser is only the 1/4 ~ 1/5 of the 1/8 of wirerope, nylon or terylene rope, the 18% ~ 20% of polypropylene rope.And this hawser is under minor diameter state, when equal disrumpent feelings strength, a diameter of nylon of this hawser or the 55% ~ 60% of terylene rope, the 45% of polypropylene rope.And also by being embedded the mode of metal wire to further enhance the intensity of heart yearn inside heart yearn.

Preferably, described metal wire includes master core and the Duo Gen by-pass core arranged along core axes, and described by-pass core is arranged in heart yearn centered by being arranged on master core.

By using technique scheme, it is possible to by master core and the by-pass core being evenly distributed in heart yearn, be greatly enhanced intensity and the toughness of whole hawser.

Preferably, described by-pass core is parallel with master core, by-pass core centered by master core circumference array in heart yearn.

By using technique scheme, its all of by-pass core circumference array is arranged on master core surrounding, is so conveniently to be arranged on metal wire in heart yearn, is conducive to simplifying the production technology of hawser, reduces production requirement.

Preferably, described some by-pass cores are parallel to each other and are arranged on master core with master core for axis of screw winding.

By using technique scheme, so when producing, the superhigh molecular weight polyethylene fibers of heart yearn will be constituted on uniform fold on master core outer wall, then by by-pass core spiral winding on its external wall, superhigh molecular weight polyethylene fibers is covered again in by-pass core overlying, this makes it possible to complete the embedding work of the metal wire in heart yearn, so can be by the way of by-pass core be wound around, make to be wrapped in the superhigh molecular weight polyethylene fibers between by-pass core and master core more tight, contribute to the structural strength of whole hawser.

Preferably, described some by-pass cores are interleaved with each other and are wound around with master core for the axis of screw and are arranged on master core.

By using technique scheme, and the canoe of this metal wire, when producing, also it is first will to constitute the superhigh molecular weight polyethylene fibers of heart yearn on uniform fold on master core outer wall, then the by-pass core retainer plate weaving mutually winding is being set on its external wall, superhigh molecular weight polyethylene fibers is covered again in by-pass core overlying, this makes it possible to complete the embedding work of the metal wire in heart yearn, it also is able to by the way of by-pass core is wound around, make the superhigh molecular weight polyethylene fibers being wrapped between by-pass core and master core the tightst, contribute to the structural strength of whole hawser.And its by-pass core is because being wound around braiding mutually, thus on all of by-pass core when stress, it is possible to act on simultaneously, strengthen tensile strength.

Preferably, described cushion is made up of polyster fibre of preventing fires, and fire prevention polyster fibre is parallel with core axes.

By using technique scheme, its fire prevention terylene has a good fire protecting performance, and light quality, contribute to alleviating the weight of hawser.

Preferably, described heart yearn is arranged with the protective layer being made up of fire-resistant rubber.

By using technique scheme, can greatly be strengthened the anti-fire intensity of hawser by the effect of fire-resistant rubber.

Accompanying drawing explanation

Fig. 1 is the structural representation of embodiment one；

Fig. 2 is the schematic cross-section of embodiment one；

Fig. 3 is the enlarged drawing of A in Fig. 2；

Fig. 4 is the schematic cross-section of heart yearn in embodiment one；

Fig. 5 is the enlarged drawing of B in Fig. 5；

Fig. 6 is the structural representation of metal wire in embodiment one；

Fig. 7 is the structural representation of metal wire in embodiment two

Fig. 8 is the structural representation of metal wire in embodiment three.

Reference: 1, hawser main body；11, main rope strand；12, secondary rope strand；2, cushion；21, reinforcing fibre；3, heart yearn；31, protective layer；32, superhigh molecular weight polyethylene fibers；33, metal wire, 331, master core；332, by-pass core；34, circle is tied up；35, fireproof coating；36, protection shell.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

This specific embodiment is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made after reading this specification by those skilled in the art as required does not has the amendment of creative contribution, but as long as all being protected by Patent Law in right of the present utility model.

Embodiment one: as shown in Figures 1 to 6, a kind of high-performance combines 12 strands of double weave ropes, and including heart yearn 3 and the hawser main body 1 being set on heart yearn 3, described heart yearn 3 also sets cushion 2 with hawser main body 1；Described hawser main body 1 includes the main rope strand of multiply 11 being wound around mutually；Described main rope strand 11 is twisted into and parallel secondary rope strand 12 by basalt fibre by two；Secondary rope strand 12 in described main line stock is parallel to each other.Basalt fibre only has that intensity is high, high temperature resistant, good endurance, corrosion-resistant (acid-fast alkali-proof), do not absorb water, dielectric properties good, radioprotective, have certain inhale the combination property such as ripple and wave transparent, feature that cost performance is the most moderate.And the tensile strength of basalt fibre (filament strength) is 3000 ~ 4800Mpa, so that also there is good fire protecting performance while strengthening hawser intensity.And hawser main body 1 is formed by the braiding of multiply main rope strand 11, and main rope strand 11 is twisted into by basalt fibre by two and parallel secondary rope strand 12 is constituted, this hawser under this braiding structure, great pliability and lighter in weight, small volume while meeting intensity.

As shown in Figure 4 and Figure 5, described heart yearn 3 is twisted into by superhigh molecular weight polyethylene fibers 32, is embedded with multiply metal wire 33 in described heart yearn 3.Superhigh molecular weight polyethylene fibers 32 has superior anti-tensile and relaxes and toy fatigue behaviour and the performance such as aging resistance, resist chemical, hawser is when equivalent diameter, intensity is identical with wirerope, and equal disrumpent feelings strength when, the weight of every meter of hawser is only the 1/8 of wirerope, nylon or the 1/4 ~ 1/5 of terylene rope, the 18% ~ 20% of polypropylene rope.And this hawser is under minor diameter state, when equal disrumpent feelings strength, a diameter of nylon of this hawser or the 55% ~ 60% of terylene rope, the 45% of polypropylene rope.And it is internal also by being embedded the mode of metal wire 33 to further enhance the intensity of heart yearn 3 at heart yearn 3.

Superhigh molecular weight polyethylene fibers 32 is also immersed in fireproof coating 35, this makes it possible to avoid heart yearn 3 internal generation cavity, and can also be greatly enhanced the anti-fire intensity of heart yearn 3.

As shown in Figure 4, metal wire 33 includes the master core 331 and Duo Gen by-pass core 332 arranged along heart yearn 3 axis, and described by-pass core 332 is arranged in heart yearn 3 centered by being arranged on master core 331.Intensity and the toughness of whole hawser can be greatly enhanced by master core 331 and the by-pass core 332 being evenly distributed in heart yearn 3.

As shown in figures 1 and 3, described cushion 2 is made up of fire prevention polyster fibre, and fire prevention polyster fibre is parallel with heart yearn 3 axis.Its fire prevention terylene has a good fire protecting performance, and light quality, contribute to alleviating the weight of hawser.

And the reinforcing fibre 21 of other materials can also be embedded in cushion 2, such as the fiber such as high-tensile steel wires, nylon, thus strengthen the tensile strength that hawser is overall.And owing to fire prevention polyster fibre is parallel with heart yearn 3 axis, this makes it possible to conveniently in the cushion 2 being made up of fire prevention terylene, be mixed into these reinforcing fibres 21.

As shown in Figure 4, described heart yearn 3 is arranged with the protective layer 31 being made up of fire-resistant rubber.The anti-fire intensity of hawser can be greatly strengthened by the effect of fire-resistant rubber.And its protective layer 31 is after wrapping up whole heart yearn 3; can be when heart yearn 3 penetrates in hawser main body 1; it is prevented effectively from heart yearn 3 inconsistent with cushion 2 and hawser main body 1; effectively hawser main body 1 and protective layer 31 are protected; also contribute to gather heart yearn 3 so that the more close and firm of the fiber on heart yearn 3.

As it is shown on figure 3, and also wrapped up protection shell 36 outside protective layer 31, its protection shell 36 is made up of intensity rubber, this makes it possible to effectively protect protective layer 31.

As it is shown in figure 5, and between protective layer 31 and heart yearn 3, also be provided with having the effect of tying up tie up circle 34, by tying up circle 34, the main body of heart yearn 3 is wrapped up, so that the fiber within heart yearn 3 is tightr so that whole hawser is more firm.

As shown in Figure 1; and the cushion 2 that polyster fibre is constituted and polyster fibre of preventing fires is parallel with heart yearn 3 axis can also facilitate hawser main body 1 to peel off from heart yearn 3 by preventing fires; after hawser main body 1 is cut open; will four be scattered by the fire prevention protective layer 31 that constitutes of polyster fibre; thus the heart yearn 3 that is provided with protective layer 31 is exposed out, this makes it possible to be convenient for people to directly in hawser main body 1, extract heart yearn 3.

As shown in Figure 6, described by-pass core 332 is parallel with master core 331, by-pass core 332 centered by master core 331 circumference array in heart yearn 3.Its all of by-pass core 332 circumference array is arranged on master core 331 surrounding, is so conveniently to be arranged on metal wire 33 in heart yearn 3, is conducive to simplifying the production technology of hawser, reduces production requirement.

Embodiment two: as it is shown in fig. 7, with being distinguished as of above-described embodiment one: described some by-pass cores 332 are parallel to each other and be wound around with master core 331 for the axis of screw and be arranged on master core 331.So when producing, the superhigh molecular weight polyethylene fibers 32 of heart yearn 3 will be constituted on uniform fold on master core 331 outer wall, then by by-pass core 332 spiral winding on its external wall, superhigh molecular weight polyethylene fibers 32 is covered again in by-pass core 332 overlying, this makes it possible to complete the embedding work of the metal wire 33 in heart yearn 3, so can be by the way of by-pass core 332 winding, make the superhigh molecular weight polyethylene fibers 32 being wrapped between by-pass core 332 and master core 331 more tight, contribute to the structural strength of whole hawser.

Embodiment three: as shown in Figure 8, with being distinguished as of above-described embodiment one: described some by-pass cores 332 are interleaved with each other and are wound around with master core 331 for the axis of screw and are arranged on master core 331.And the canoe of this metal wire 33, when producing, also it is first will to constitute the superhigh molecular weight polyethylene fibers 32 of heart yearn 3 on uniform fold on master core 331 outer wall, then sheathed on its external wall at the by-pass core 332 that will weave mutually winding, superhigh molecular weight polyethylene fibers 32 is covered again in by-pass core 332 overlying, this makes it possible to complete the embedding work of the metal wire 33 in heart yearn 3, it also is able to by the way of by-pass core 332 winding, make the superhigh molecular weight polyethylene fibers 32 being wrapped between by-pass core 332 and master core 331 the tightst, contribute to the structural strength of whole hawser.And its by-pass core 332 is because being wound around mutually braiding, thus on all of by-pass core 332 when stress, it is possible to act on simultaneously, strengthen tensile strength.

High-performance combines 12 bursts of double weave rope modes of production:

Step one: by basalt fibre twisting pair rope strand 12, is then one to consist of main rope strand 11 with two secondary rope strands 12, and six strands of main rope strands 11 are wound around braiding and form hawser main body 1 altogether；

Step 2: superhigh molecular weight polyethylene fibers 32 is twisted into heart yearn 3, and is embedded in metal wire 33 at heart yearn 3；

Step 3: insert in hawser main body 1 after heart yearn 3 is wrapped up the cushion 2 being made up of fire prevention terylene.

When producing, step one and step 2 can be carried out simultaneously, thus produce hawser main body 1 and heart yearn 3, the most both simplified the production technology of whole hawser, and also improved the production efficiency of whole hawser.

After the production completing hawser main body 1 and heart yearn 3, just can will be wrapped in outside heart yearn 3 by the fire prevention cushion 2 that constitutes of terylene, then heart yearn 3 is connected cushion 2 insert in hawser main body 1 such that it is able to the assembling quickly finishing whole hawser produces, and improves production efficiency.

And after hawser uses, after its hawser main body 1 is worn and torn or is damaged, just can directly hawser main body 1 be peeled off, thus again wrap up on the heart yearn 3 separated cushion 2 and sheathed new hawser main body 1, thus on this high-performance to combine 12 bursts of double weave rope more economically environmental protection practical.

Its master core 331 overlaps with heart yearn 3 axis, and some by-pass cores 332 then can arrange the by-pass core 332 of different institutions in heart yearn 3 with actual requirement, meets hawser and is not both demand.

The above is only exemplary embodiment of the present utility model, and not for limiting protection domain of the present utility model, protection domain of the present utility model is determined by appended claim.

Claims (9)

1. a high-performance combines 12 strands of double weave ropes, it is characterized in that: include that heart yearn (3) and the hawser main body (1) being set on heart yearn (3), described heart yearn (3) and hawser main body (1) also set cushion (2)；

Described hawser main body (1) includes the main rope strand of the multiply (11) being wound around mutually；Described main rope strand (11) is twisted into and parallel secondary rope strand (12) by basalt fibre by two；The secondary rope strand (12) of described main line stock is parallel to each other.

High-performance the most according to claim 1 combines 12 strands of double weave ropes, it is characterized in that: described heart yearn (3) is twisted into by superhigh molecular weight polyethylene fibers (32), in described heart yearn (3), be embedded with multiply metal wire (33).

High-performance the most according to claim 2 combines 12 strands of double weave ropes, it is characterized in that: described metal wire (33) includes the master core (331) along the setting of heart yearn (3) axis and many by-pass cores (332), and described by-pass core (332) is arranged in heart yearn (3) centered by being arranged on master core (331).

High-performance the most according to claim 3 combines 12 strands of double weave ropes, it is characterized in that: described by-pass core (332) is parallel with master core (331), by-pass core (332) centered by master core (331) circumference array in heart yearn (3).

High-performance the most according to claim 3 combines 12 strands of double weave ropes, it is characterized in that: described some by-pass cores (332) are parallel to each other and be that the axis of screw is wound around and is arranged on master core (331) with master core (331).

High-performance the most according to claim 3 combines 12 strands of double weave ropes, it is characterized in that: described some by-pass cores (332) are interleaved with each other and are that axis of screw winding is arranged on master core (331) with master core (331).

7. combine 12 strands of double weave ropes according to the high-performance described in claim 4 or 5 or 6, it is characterized in that: described cushion (2) is made up of fire prevention polyster fibre.

High-performance the most according to claim 7 combines 12 strands of double weave ropes, it is characterized in that: described cushion (2) is made up of fire prevention polyster fibre, and fire prevention polyster fibre is parallel with heart yearn (3) axis.

High-performance the most according to claim 8 combines 12 strands of double weave ropes, it is characterized in that: be arranged with the protective layer (31) being made up of fire-resistant rubber on described heart yearn (3).