CN105625072A - High-performance combined twelve-strand double-braided cable and producing method thereof - Google Patents

Abstract

The invention discloses a high-performance combined twelve-strand double-braided cable which comprises a core wire and a cable body arranged on the core wire in a sleeving mode. A buffer layer is arranged between the core wire and the cable body. The cable body comprises a plurality of main strands twisted together. Each main strand is composed of two parallel auxiliary strands formed by twisting basalt fiber. The auxiliary strands in each main strand are parallel to each other. Basalt fiber has the advantages of being high in strength, resistant to high temperature, high in durability, resistant to corrosion, free of water absorption, good in dielectric property, resistant to radiation, capable of having certain comprehensive performance such as wave absorption and wave permeation, and moderate in cost performance. The tensile strength of basalt fiber is 3000-4800 Mpa, and therefore the strength of the cable is enhanced, and good fireproof performance is achieved. The cable body is formed by weaving the main strands, each main strand is composed of two parallel auxiliary strands formed by twisting basalt fiber, and therefore the cable of the woven structure meets the strength and is high in flexibility, light in weight and small in size.

Description

High-performance combines 12 strands of two volume hawsers and production method thereof

Technical field

The present invention relates to a kind of rope, more specifically, it relates to a kind of high-performance and combines 12 strands of two volume hawsers and production method thereof.

Background technology

Quoting widely in the every field of rope in life, in industries such as some boats and ships, logistics, heavy works, the rope of some high strength is requisite.

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

Summary of the invention

For the deficiency that prior art exists, first object of the present invention is to provide a kind of high strength, high temperature resistant high-performance to combine 12 strands of two volume hawsers.

For achieving the above object, the present invention provides following technical scheme: a kind of high-performance combines 12 strands of two volume hawsers, and the hawser main body comprising heart yearn He being set on heart yearn, described heart yearn and hawser main body also establish buffer layer; Described hawser main body comprises the main rope strand of multiply of winding 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 adopting technique scheme, basalt fibre only intensity height, high temperature resistant, good endurance, corrosion-resistant (acid-fast alkali-proof), do not absorb water, dielectric properties good, radioprotective, the feature having over-all properties, the cost performances such as certain suction ripple and wave transparent also moderate. And the tensile strength of basalt fibre (filament strength) is 3000 ~ 4800Mpa, so that also there is good fire resistance while strengthening hawser intensity. And hawser main body is woven by the main rope strand of multiply, and main rope strand is twisted into by basalt fibre by two and parallel secondary rope strand is formed, this kind of hawser under this kind of braiding structure, meet intensity to have snappiness and lighter in weight, volume less simultaneously.

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

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

Preferably, described metal wire comprises the main line core along core axes setting and Duo Gen by-pass core, and described by-pass core is arranged in heart yearn centered by main line core to be arranged on.

By adopting technique scheme, it is possible to by main line core and the by-pass core being evenly distributed in heart yearn, greatly strengthen intensity and the toughness of whole hawser.

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

By adopting technique scheme, its all by-pass core circumference array is arranged on main line core surrounding, is conveniently be arranged on metal wire in heart yearn like this, is conducive to simplifying the production technique of hawser, reduces production requirement.

Preferably, described some by-pass cores are parallel to each other and be wound around by the axis of screw of main line core and be arranged on main line core.

By adopting technique scheme, like this when producing, uniform fold on main line outer core will form the superhigh molecular weight polyethylene fibers of heart yearn, then by by-pass core spiral winding on its external wall, superhigh molecular weight polyethylene fibers is covered again on by-pass core, this makes it possible to the embedding work of the metal wire completing in heart yearn, the mode can being wound around by by-pass core like this, make the superhigh molecular weight polyethylene fibers being wrapped between by-pass core and main line core more tight, contribute to the structural strength of whole hawser.

Preferably, described some by-pass cores interweave mutually and are wound around by the axis of screw of main line core and are arranged on main line core.

By adopting technique scheme, and the canoe of the metal wire of this kind, when producing, also it is first uniform fold on main line outer core will form the superhigh molecular weight polyethylene fibers of heart yearn, then on its external wall sheathed at the by-pass core that will weave mutually winding, superhigh molecular weight polyethylene fibers is covered again on by-pass core, this makes it possible to the embedding work of the metal wire completing in heart yearn, also the mode can being wound around by by-pass core, make the superhigh molecular weight polyethylene fibers being wrapped between by-pass core and main line core more tight, contribute to the structural strength of whole hawser. and its by-pass core is because being wound around braiding mutually, thus on all by-pass cores when by power, it is possible to act on simultaneously, strengthen tensile strength.

Preferably, by preventing fires, polyster fibre is formed described buffer layer, and fire prevention polyster fibre is parallel with core axes.

By adopting technique scheme, its fire prevention terylene has good fire resistance, and light quality, contributes to alleviating the weight of hawser.

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

By adopting technique scheme, the anti-fire intensity of hawser can be strengthened greatly by the effect of rubber of preventing fires.

2nd object of the present invention is that a kind of above-mentioned high-performance combines 12 bursts of two working methods compiling hawser, comprises the following steps:

Step one: by secondary for basalt fibre twisting rope strand, then consisting of main rope strand taking two secondary rope strands as one, six strands of main rope strands are wound around braiding and become hawser main body altogether;

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

Step 3: is inserted in hawser main body after the buffer layer that heart yearn parcel is made up of fire prevention terylene.

By adopting technique scheme, it is possible to by step one and step 2, carry out, thus produce hawser main body and heart yearn, so both simplify the production technique of whole hawser, and also improve the production efficiency of whole hawser simultaneously.

After the production completing hawser main body and heart yearn, just can be wrapped in outside heart yearn by the buffer layer that fire prevention terylene is formed, then heart yearn is connected in buffer layer insertion hawser main body such that it is able to the assembling completing whole hawser fast is produced, it is to increase production efficiency.

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 view of A in Fig. 2;

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

Fig. 5 is the enlarged view of B in Fig. 4;

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

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in further detail.

This specific embodiment is only explanation of the invention; it is not limitation of the present invention; the present embodiment can be made the amendment not having creative contribution as required by those skilled in the art after reading this specification sheets, but as long as being all subject to the protection of patent law in the right of the present invention.

Embodiment one: as shown in Figures 1 to 6, a kind of high-performance combines 12 strands of two volume hawsers, the hawser main body 1 comprising heart yearn 3 and being set on heart yearn 3, and described heart yearn 3 also establishes buffer layer 2 with hawser main body 1; Described hawser main body 1 comprises the main rope strand 11 of multiply of winding 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 intensity height, high temperature resistant, good endurance, corrosion-resistant (acid-fast alkali-proof), do not absorb water, dielectric properties good, radioprotective, the feature having over-all properties, the cost performances such as certain suction ripple and wave transparent also moderate. And the tensile strength of basalt fibre (filament strength) is 3000 ~ 4800Mpa, so that also there is good fire resistance while strengthening hawser intensity. And hawser main body 1 is woven by the main rope strand 11 of multiply, and main rope strand 11 is twisted into by basalt fibre by two and parallel secondary rope strand 12 is formed, this kind of hawser under this kind of braiding structure, meet intensity to have snappiness and lighter in weight, volume less simultaneously.

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 property and the performance such as anti-ageingization, resist chemical, hawser is when equivalent diameter, intensity is identical with wirerope, and when equal disrumpent feelings brute force, the weight of every meter, hawser is only the 1/8 of wirerope, the 1/4 ~ 1/5 of nylon or terylene rope, the 18% ~ 20% of polypropylene rope. And this kind of hawser is under minor diameter state, equal disrumpent feelings powerful time, the diameter of this hawser is the 55% ~ 60% of nylon or terylene rope, the 45% of polypropylene rope. And also strengthen the intensity of heart yearn 3 further by being embedded the mode of metal wire 33 in heart yearn 3 inside.

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

As shown in Figure 4, metal wire 33 comprises the main line core 331 along the setting of heart yearn 3 axis and Duo Gen by-pass core 332, and described by-pass core 332 is arranged in heart yearn 3 centered by main line core 331 to be arranged on. By main line core 331 and the by-pass core 332 being evenly distributed in heart yearn 3, can greatly strengthen intensity and the toughness of whole hawser.

As shown in figures 1 and 3, described buffer layer 2 is made up of fire prevention polyster fibre, and prevent fires polyster fibre and heart yearn 3 axis being parallel. Its fire prevention terylene has good fire resistance, and light quality, contributes to alleviating the weight of hawser.

And the reinforcing fibre 21 of other materials can also be embedded in buffer layer 2, such as the fiber such as high-tensile steel wires, nylon, thus strengthen the tensile strength of hawser entirety. And due to fire prevention polyster fibre and heart yearn 3 axis being parallel, this makes it possible to be mixed into these reinforcing fibres 21 in the convenient buffer layer 2 being made up of fire prevention terylene.

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

As shown in Figure 3, and also having wrapped up protecting sheathing 36 outside protective layer 31, its protecting sheathing 36 is made up of intensity rubber, this makes it possible to effectively be protected by protective layer 31.

As shown in Figure 5, and be also provided with between protective layer 31 and heart yearn 3 there is 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 of heart yearn 3 inside is tightr so that whole hawser is more firm.

As shown in Figure 1; and it is made up of and the buffer layer 2 of prevent fires polyster fibre and heart yearn 3 axis being parallel can also facilitate hawser main body 1 to peel off from heart yearn 3 fire prevention polyster fibre; after hawser main body 1 is cut open; will four scatter by the fire prevention protective layer 31 that forms of polyster fibre; thus by out exposed for the heart yearn 3 being provided with protective layer 31, 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 main line core 331, by-pass core 332 centered by main line core 331 circumference array in heart yearn 3. Its all by-pass core 332 circumference array is arranged on main line core 331 surrounding, is conveniently be arranged on metal wire 33 in heart yearn 3 like this, is conducive to simplifying the production technique of hawser, reduces production requirement.

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

Embodiment three: as shown in Figure 8, and being distinguished as of above-described embodiment one: described some by-pass cores 332 interweave mutually and are wound around by the axis of screw of main line core 331 and are arranged on main line core 331. and the canoe of the metal wire 33 of this kind, when producing, also it is first uniform fold on main line core 331 outer wall will form the superhigh molecular weight polyethylene fibers 32 of heart yearn 3, then on its external wall sheathed at the by-pass core 332 that will weave mutually winding, superhigh molecular weight polyethylene fibers 32 is covered again on by-pass core 332, this makes it possible to the embedding work of the metal wire 33 completed in heart yearn 3, also the mode can being wound around by by-pass core 332, make the superhigh molecular weight polyethylene fibers 32 being wrapped between by-pass core 332 and main line core 331 more tight, contribute to the structural strength of whole hawser. and its by-pass core 332 is because being wound around mutually braiding, thus on all by-pass cores 332 when by power, it is possible to act on simultaneously, strengthen tensile strength.

Embodiment four: above-mentioned high-performance combines 12 bursts of two hawser modes of production of compiling and is:

Step one: by secondary for basalt fibre twisting rope strand 12, then consisting of main rope strand 11 taking two secondary rope strands 12 as one, six strands of main rope strands 11 are wound around braiding and become hawser main body 1 altogether;

Step 2: superhigh molecular weight polyethylene fibers 32 is twisted into heart yearn 3, and it 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 buffer layer 2 being made up of fire prevention terylene.

When producing, it is possible to by step one and step 2, carry out simultaneously, thus produce hawser main body 1 and heart yearn 3, so both simplify the production technique of whole hawser, and also improve the production efficiency of whole hawser.

After the production completing hawser main body 1 and heart yearn 3, just can be wrapped in outside heart yearn 3 by the buffer layer 2 that fire prevention terylene is formed, heart yearn 3 is connected buffer layer 2 again to be inserted in hawser main body 1 such that it is able to the assembling completing whole hawser fast is produced, it is to increase 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 on the heart yearn 3 separated, again wrap up buffer layer 2 and sheathed new hawser main body 1, thus on this high-performance combine 12 strands two to compile hawser environmental protection more economically practical.

Its main line core 331 overlaps with heart yearn 3 axis, and some by-pass cores 332 then actual can require the by-pass core 332 arranging different institutions in heart yearn 3, meets hawser and is not both demand.

The above is only the exemplary embodiment of the present invention, but not for limiting the scope of the invention, protection scope of the present invention is determined by appended claim.

Claims (10)

1. a high-performance combines 12 strands of two volume hawsers, it is characterized in that: the hawser main body (1) comprising heart yearn (3) and being set on heart yearn (3), described heart yearn (3) and hawser main body (1) also establish buffer layer (2);

Described hawser main body (1) comprises the main rope strand of the multiply (11) of winding 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.

2. high-performance according to claim 1 combines 12 strands of two volume hawsers, it is characterized in that: described heart yearn (3) is twisted into by superhigh molecular weight polyethylene fibers (32), in described heart yearn (3), it is embedded with multiply metal wire (33).

3. high-performance according to claim 2 combines 12 strands of two volume hawsers, it is characterized in that: described metal wire (33) comprises the main line 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 main line core (331) to be arranged on.

4. high-performance according to claim 3 combines 12 strands of two volume hawsers, it is characterized in that: described by-pass core (332) is parallel with main line core (331), by-pass core (332) centered by main line core (331) circumference array in heart yearn (3).

5. high-performance according to claim 3 combines 12 strands and two compiles hawsers, it is characterized in that: described some by-pass cores (332) are parallel to each other and be wound around by the axis of screw of main line core (331) and be arranged on main line core (331).

6. high-performance according to claim 3 combines 12 strands of two volume hawsers, it is characterized in that: described some by-pass cores (332) interweave mutually and are wound around by the axis of screw of main line core (331) and are arranged on main line core (331).

7. high-performance according to claim 4 or 5 or 6 combines 12 strands and two compiles hawsers, it is characterized in that: described buffer layer (2) is made up of fire prevention polyster fibre.

8. high-performance according to claim 7 combines 12 strands of two volume hawsers, it is characterized in that: described buffer layer (2) is made up of fire prevention polyster fibre, and prevent fires polyster fibre and heart yearn (3) axis being parallel.

9. high-performance according to claim 8 combines 12 strands of two volume hawsers, it is characterized in that: be arranged with the protective layer (31) being made up of fire prevention rubber on described heart yearn (3).

10. high-performance as claimed in claim 9 combines 12 bursts of two working methods compiling hawser, comprises the following steps:

Step one: by secondary for basalt fibre twisting rope strand (12), then consisting of main rope strand (11) taking two secondary rope strands (12) as one, six bursts of main rope strands (11) are wound around braiding and become hawser main body (1) altogether;

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

Step 3: the buffer layer (2) that heart yearn (3) parcel fire prevention terylene is formed is inserted in hawser main body (1) afterwards.