JP2023065986A - Yarn, woven cord, rope and yarn manufacturing method - Google Patents

Abstract

To provide a rope and a cord, which are light in weight and have high tensile strength at low cost, and a yarn for forming the rope and the cord.SOLUTION: A yarn 5 is intended for a rope 1 or a cord. The yarn 5 is an aggregate including a plurality of first filaments 3 and a plurality of second filaments 4. The first filament 3 is made of polypropylene resin or polyethylene resin. The second filament 4 is made of nylon resin or polyester resin. Mass ratio of the plurality of first filaments 3 in the aggregate is 70 to 95%. Mass ratio of the plurality of second filaments 4 in the aggregate is 5 to 30%. The aggregate is not twisted.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present invention relates to a yarn, which is an assembly of a plurality of single yarns, and a cord or rope formed from the yarn.

Conventionally, a plurality of single yarns such as filaments are twisted to form a single yarn or a composite yarn by further twisting, and a plurality of the single yarn or the composite yarn are twisted to form a strand (strand), and the strand is made into a plurality of strands. A rope is manufactured by twisting.

There are several types of cords. For example, braided cords are manufactured by interlacing a plurality of yarns while crossing them at an angle, and woven cords are manufactured by weaving warp threads and weft threads at right angles.

However, in a rope or string formed by such a method, strength can be ensured by arranging the single yarns as straight as possible, but since the single yarns, yarns, strands, etc. are twisted at each stage, they are manufactured. , there is a problem that the longitudinal direction is angled, and as a result, the tensile strength in particular decreases.

Furthermore, the larger the number of twists, the greater the mass per unit length. Therefore, in the conventional method, the mass of the yarn per unit length increases, and the rope or cord manufactured from the yarn becomes heavy, resulting in usability, etc. had a problem.

On the other hand, filaments made of polyethylene resin or polypropylene resin, which are generally used at low prices, have a problem of low wear resistance when used without being twisted. Filaments are used by twisting them together.

Also, a twisting machine is required when manufacturing a single yarn or a composite yarn from a plurality of single yarns. When a ring twisting machine is used as the twisting machine, the twisting machine is expensive due to the precision required for high-speed rotation, and semi-consumables such as attached bobbins are also expensive, so the manufactured yarn is also expensive. There was a problem of becoming In addition, when other types of twisting machines are used, there are many processes such as upper twisting and lower twisting, and problems remain in noise due to high-speed rotation and safety during operation.

In Patent Document 1, in order to increase the strength, the fiber rope has a double structure of an inner layer rope and an outer layer rope covering the outer side, and the inner layer rope is loosely beaten and the outer layer rope is tightly beaten. A fiber rope is disclosed which is made of the same material and in which the yarn weight ratio of the inner layer rope and the outer layer rope is set within the range of 60:40 to 55:45.

In addition, in Patent Document 2, a plurality of yarns made of a plurality of fibers are bundled, and the bundled yarn is spirally wound around the outer periphery to form a strand, and a plurality of the strands are combined. A rope is disclosed.

Utility Model Registration No. 3216535 JP 2020-56124 A

However, although the fiber rope of Patent Document 1 has improved tensile strength to some extent, further improvements in tensile strength and wear resistance and cost reduction are required. In addition, in the rope of Patent Document 2, a plurality of yarns are bundled and the bundled yarn is spirally wound around the bundled yarn to form a strand. become. Further, in Patent Document 2 as well, further improvements in tensile strength, improvements in wear resistance, and cost reduction are required.

In addition, there is a demand for a highly versatile yarn that can be applied not only to ropes but also to cords.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide ropes, cords, and yarns for forming such ropes and cords that are lightweight, inexpensive, and have high tensile strength and tensile breaking strength.

The present invention provides a yarn for a rope or cord, wherein the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, the first filaments are made of polypropylene resin or polyethylene resin, and the The second filaments are made of nylon resin or polyester resin, the mass ratio of the plurality of first filaments in the aggregate is 70 to 95%, and the mass ratio of the plurality of second filaments in the aggregate is 5-30%, said assembly is a yarn characterized in that it is not twisted.

Here, the term "untwisted" means that the single yarns are arranged parallel to each other, and the number of twists is substantially zero. In addition, "for cord" includes the case where the yarn itself is used as the cord as it is, and the cord manufactured by braiding or weaving the yarn.

The present invention also provides a yarn for a rope or string, wherein the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, and the first filaments are made of polypropylene resin or polyethylene resin. , the second filaments are made of nylon resin or polyester resin, the mass ratio of the plurality of first filaments in the assembly is 70 to 95%, and the mass of the plurality of second filaments in the assembly The proportion is between 5 and 30%, and said assembly is a yarn, characterized in that it is loosely twisted.

Here, "softly twisted" means that the number of twists per unit length is less than usual. Preferably, the twist number is 500 T/m or less.

It is preferable that a binder resin is attached to the assembly, and the plurality of first filaments and the plurality of second filaments are bound by the binder resin.

Preferably, the assembly is bobbin-wound, cheese-wound, or ball-wound.

The present invention also provides a rope formed by further twisting a plurality of strands obtained by twisting a plurality of yarns, and loosely twisting the strands.

Further, in the present invention, the yarn is singly or plurally arranged in parallel to form a core of a strand, and the strand is formed by the core and a skin covering the core, and the strands are twisted together. It is a rope.

Preferably, said skin comprises both said yarns and twisted yarns.

The present invention also provides a woven cord woven with the yarn as warp and the twisted yarn as weft.

The present invention also provides a method for manufacturing a yarn, wherein the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, the first filaments are made of polypropylene resin or polyethylene resin, and The second filaments are made of nylon resin or polyester resin, and a step of forming an aggregate of a plurality of first filaments and a plurality of second filaments without or loosely twisted; and drying the assembly to which the water-soluble resin is attached.

According to the present invention, an expensive twisting machine and a twisting process are not required, the equipment investment is drastically reduced, the simplification increases the work efficiency, and the safety is improved. Furthermore, the number of twists is 0 or less, so that the tensile strength and tensile strength at break are increased, and a lightweight yarn is obtained, and the ropes and cords manufactured thereby also have high tensile strength and are lightweight. . Furthermore, since filaments made of nylon resin or polyester resin are mixed, the abrasion resistance is high. Moreover, when the resin is permeated, the handleability is improved due to the binding effect of the resin.

Further, when the resin is impregnated, the yarn of the present invention itself can be used as a cord, and can be used for processing and repairing rope nets and binding articles for making parcels in the same manner as conventional braided cords. In that case, by binding the single yarns with a resin, it is easy to pass them through the eye of a working needle, and workability is improved. In addition, when it is used for a woven cord, it is difficult to soften due to the effect of the resin, so that the distance between the weft yarns is wide, so that the weft yarn driving can be reduced, the texture is not deteriorated, and the production efficiency is improved. In addition, low-cost yarns, cords, and ropes can be provided.

FIG. 5 is a cross-sectional view of a three-twisted rope according to a third embodiment of the present invention;

First, a first embodiment of the present invention will be described. The present invention is a yarn for a rope or cord, which is a single yarn assembly comprising a plurality of thermoplastic resin single yarns. The yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, the first filaments being monofilaments made of polypropylene resin or polyethylene resin, and the second filaments being monofilaments made of nylon resin or polyester resin. Or multifilament. The mass ratio of the plurality of first filaments in the assembly is preferably 70-95%, more preferably 80-90%. The mass ratio of the plurality of second filaments in the assembly is preferably 5-30%, more preferably 10-20%. The first filaments and the second filaments are randomly mixed without uneven distribution.

The aggregate is not twisted, but is, for example, a plurality of filaments arranged parallel to each other. An aggregate having a diameter of 1.5 to 4 mm is preferable for rope production, and the diameter is determined according to the required strength as a woven cord or cord for repairing a rope net.

When the first filament made of polypropylene resin or polyethylene resin is used without being twisted, there is a problem that the tensile strength is increased but the abrasion resistance is lowered. By mixing the second filaments made of resin to form a non-twisted yarn, abrasion resistance can be improved while maintaining high tensile strength as a whole.

In addition, filaments made of nylon resin or polyester resin have a higher specific gravity than polyethylene resin or polypropylene resin, and by mixing them, a rope or string that does not float even when used in water can be manufactured. As the second filament, polyester resin is preferable in consideration of elasticity and price.

A water-soluble resin serving as a binder resin is attached to the aggregate in an untwisted state, and the filaments are bound together by the binder resin. The binder resin may be any resin that binds the filaments together, and may be either a thermoplastic resin or a thermosetting resin. This prevents the single yarns from being separated from each other and improves the handleability. Examples of water-soluble resins include polyvinyl alcohol-based and acrylic acid copolymer-based resins, ethylene oxide added with organic salts and inorganic salts, CMC (carboxymethyl cellulose), MC (methyl cellulose), and rubber-based resins. Examples include, but are not limited to. The amount of water-soluble resin applied is preferably 5 to 30% of the weight of the yarn before application. Also, the water-soluble resin does not necessarily need to adhere.

As one aspect of using such untwisted yarns for a rope, yarns with or without a binder resin attached are twisted to form a strand, and the formed strands are further twisted together to form a rope. can be formed.

When a rope is manufactured using untwisted yarns to which a binder resin is attached (hereinafter also referred to as resin yarns), the ropes can be loosely twisted. In the case of using conventional yarn, if the strand is loosely twisted to produce a rope, the rope becomes thick and bulging and is difficult to handle. In contrast, if a plurality of strands produced by twisting a plurality of resin yarns of the present invention are further loosely twisted to produce a rope, such a problem can be avoided by hardening the resin. In addition, since the rope is loosely twisted and manufactured, the tensile strength and the tensile breaking strength are increased and the mass per unit length is reduced as compared with the case of the plain twist. Here, the production of a rope by loose twisting means the production of a rope with a smaller number of twists than usual. The length of three pieces is 3 to 3.3 times the thickness, while the length of loosely twisted rope is 3.7 to 4.5 times. Strands may also be produced by loosely twisting yarns.

When non-twisted yarns are used for a braided cord, the yarns, which are aggregates of a plurality of single yarns with or without a binder resin attached, are braided while being obliquely crossed.

When the untwisted yarn is used for the woven cord, the woven cord is manufactured by using the untwisted yarn as at least the warp yarn and weaving the warp yarn and the weft yarn at right angles. When resin yarn is used, the hardening of the resin prevents deterioration of the texture and strength even if the weft yarn is applied less, and the spacing between the weft yarns in the length direction of the woven cord can be widened, improving productivity. be done. Due to the use of untwisted single yarn assemblies for the warp yarns, the important machine direction tensile strength can be increased. The weft yarns may be twisted yarns as no particular tensile strength is required.

The resin yarn itself can be used as a cord and used for repairing rope nets and binding articles for making parcels. In that case, since the single yarn assembly is hardened by the resin, there is also an effect that it is easy to pass through the eye of a working needle. The single yarn assembly can be bobbin-wound, cheese-wound, or ball-wound for use.

Next, a method for producing the yarn (attached with a binder resin) of the present invention will be described.
First, a plurality of filaments are gathered in parallel without being twisted together to form an aggregate of single filaments. After that, the assembly is immersed in a mixed liquid of water and a water-soluble resin (for example, the solid content concentration of the resin in the mixed liquid is 1 to 20%, more preferably 10 to 20%) to allow the water-soluble resin to permeate. . The mixed liquid may be placed in a vessel of sufficient size and the yarn may be continuously impregnated, or the yarn may be made into a ball and put into the mixed liquid together with the rolled ball. If the specific gravity of the yarn is lighter than that of water, the floating prevention device prevents the yarn from floating.

After that, the assembly to which the mixed liquid has adhered is dried. For drying, any method such as electric hot air is adopted to evaporate the water adhering to the aggregate of single yarns and harden the resin.

If immersion in the mixed solution once is insufficient, immersion in the mixed solution may be performed in two stages. In the second stage of immersion, if the rope or string is thin and lightweight, it may be immersed in the state of a rolled ball or the state of the rope or string and dried. If the rope or cord is thick and heavy, a 200 to 300 m roll may be manually drawn into a net bag, the net bag may be immersed in the mixed solution, and dried.

In this embodiment, an assembly with a diameter of 1.5 to 4 mm is rolled into a ball of 200 to 500 m, and a rope with a diameter of 10 mm, a length of 200 m and a weight of 15 kg is hand-carried into a net bag. It was immersed in a liquid, impregnated with a water-soluble resin, and dried.

Next, a second embodiment of the invention will be described.
In the first embodiment, the aggregate is formed by untwisting the single yarns, whereas in the present embodiment, the single yarns are loosely twisted, and the other points are common. The yarn of the second embodiment is loosely twisted, and the filaments are bound together by a binder resin. In the case of adhering a water-soluble resin as a binder resin, it is manufactured by immersing it in a mixed solution of water and a water-soluble resin in a loosely twisted state to allow the resin to permeate, followed by drying.

Next, a third embodiment will be described with reference to FIG. The rope 1 is formed by twisting strands 2 (three strands in this embodiment).

The core 21 includes the untwisted yarn 5, which is the yarn described in the first embodiment. Specifically, in the core 21, a plurality of first filaments 3 made of polypropylene or polyethylene resin and a plurality of second filaments 4 made of nylon or polyester resin are randomly mixed and aligned in parallel. Non-twisted yarns 5, which are aggregates arranged side by side, are arranged in parallel and bound with a binder resin as needed. Here, one untwisted yarn 5 may be used as it is for the core portion 21 . In the drawing, a portion surrounded by a thick line in the core portion 21 indicates one untwisted yarn 5 .

In the skin portion 22, on the peripheral surface of the core portion 21, both the twisted yarn 6 which is a single yarn or a composite yarn made of polypropylene resin or polyethylene resin and the untwisted yarn 5 also used in the core portion 21 are combined. Combined and twisted to form. Preferably, the twisted yarn 6 and the non-twisted yarn 5 are alternately twisted around the core 21 as shown in FIG. In FIG. 1, the non-twisted yarn 5 in the skin portion 22 is simply indicated by oblique lines, but as in the core portion 21, the first filament 3 and the second filament 4 are mixed and untwisted. is.

In the untwisted yarn 5 or the core 21 composed of the untwisted yarn 5, it is preferable that the first filaments 3 account for 80 to 90% and the second filaments 4 account for 10 to 20%. The first filament 3 is preferably a monofilament made of polypropylene or polyethylene resin, and the second filament 4 is preferably a monofilament or multifilament made of nylon or polyester resin. As the second filament 4, a twisted yarn whose main fiber is nylon or polyester fiber used for tire cords can also be used.

When filaments made of polypropylene resin or polyethylene resin are used without twisting, there is a problem that the tensile strength increases but wear resistance decreases. By forming the untwisted yarn 5 by mixing different filaments, abrasion resistance can be improved while maintaining high tensile strength as a whole.

As in the first embodiment, the untwisted yarn 5 is preferably coated with a water-soluble resin as a binder resin, and the filaments are bound together by the binder resin. As a result, the first filament 3 and the second filament 4 are prevented from being separated from each other, and the handleability is improved.

In place of the non-twisted yarn 5, the soft-twisted yarn described in the second embodiment may be used.

It should be noted that the embodiments of the present invention are not limited to the above-described embodiments, and modifications and the like can be made without departing from the technical idea of the present invention. Objects and the like are also included in the technical scope of the present invention, and it goes without saying that they can take various forms as long as they fall within the technical scope.

1: rope 2: strand 3: first filament 4: second filament 5: untwisted yarn 6: twisted yarn 21: core 22: skin

The present invention also provides a yarn for a rope or string, wherein the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, and the first filaments are made of polypropylene resin or polyethylene resin. , the second filaments are made of nylon resin or polyester resin, the mass ratio of the plurality of first filaments in the assembly is 70 to 95%, and the mass of the plurality of second filaments in the assembly The proportion is 5-30%, and the assembly is a yarn characterized in that it is twisted with a twist number of 500 T/m or less .

The present invention also provides a rope formed by further twisting a plurality of strands obtained by twisting a plurality of yarns.

The present invention also provides a method for manufacturing a yarn, wherein the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, the first filaments are made of polypropylene resin or polyethylene resin, and The second filament is made of nylon resin or polyester resin, and the plurality of first filaments and the plurality of second filaments are twisted without twisting or with a twist number of 500 T / m or less to form an aggregate. 1. A method for manufacturing yarn, comprising the steps of: immersing the assembly in a liquid containing a water-soluble resin; and drying the assembly to which the water-soluble resin has adhered.

Claims (9)

Yarn for rope or cord,
the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments;
The first filament is made of polypropylene resin or polyethylene resin,
The second filament is made of nylon resin or polyester resin,
The mass ratio of the plurality of first filaments in the aggregate is 70 to 95%, and the mass ratio of the plurality of second filaments in the aggregate is 5 to 30%,
characterized in that the assembly is not twisted together,
Yarn. Yarn for rope or cord,
the yarn is an aggregate including a plurality of first filaments and a plurality of second filaments;
The first filament is made of polypropylene resin or polyethylene resin,
The second filament is made of nylon resin or polyester resin,
The mass ratio of the plurality of first filaments in the aggregate is 70 to 95%, and the mass ratio of the plurality of second filaments in the aggregate is 5 to 30%,
The aggregate is loosely twisted,
Yarn. The aggregate is attached with a binder resin, and the binder resin binds the plurality of first filaments and the plurality of second filaments,
Yarn according to claim 1 or 2. bobbin-wrapped, cheese-wrapped, or ball-wrapped,
The yarn according to any one of claims 1-3. A rope formed by further twisting a plurality of strands obtained by twisting a plurality of yarns according to any one of claims 1 to 3, and loosely twisting the strands. The yarn according to any one of claims 1 to 3 is used singly or a plurality of yarns are aligned in parallel to form the core of the strand,
A strand is formed by the core and a skin covering the core,
A rope formed by twisting the strands. The skin includes both the yarn according to any one of claims 1 to 3 and the twisted yarn,
A rope according to claim 6. A woven cord woven with the yarn of claim 3 as warp yarn and twisted yarn as weft yarn. A method of manufacturing a yarn, comprising:
The yarn is an aggregate including a plurality of first filaments and a plurality of second filaments, wherein the first filaments are made of polypropylene resin or polyethylene resin, the second filaments are made of nylon resin or polyester resin,
forming a non-twisted or loosely-twisted aggregate of a plurality of first filaments and a plurality of second filaments;
a step of immersing the assembly in a liquid containing a water-soluble resin;
a step of drying the assembly to which the water-soluble resin is attached;
comprising
Yarn manufacturing method.

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