JPS63196727A - Composite yarn consisting of metal fiber and synthetic fiber - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a textile yarn that is passed through machine knitting and used to construct a fabric having great strength.

[Conventional technology]

In general, it is used for work clothes in factories, etc., and for wearing equipment used for skiing, hang gliding, etc.
It is important that safety clothing (hereinafter referred to as safety clothing) has sufficient resistance to external hazards. For this reason,
The fabrics used for these safety clothing are made of knitting and weaving yarns that have special strength.

Conventionally, this kind of knitting yarn has been made of highly flexible metal fibers themselves, or composites made by wrapping aramid fibers around a core yarn formed by combining these metal fibers with aramid fibers. thread is used. In the case of metal fibers, these knitting yarns have different strength depending on the strength of the fiber itself.
Furthermore, in the case of composite yarns, the unique strength of aramid fibers is added to the strength of metal fibers, making it possible to exhibit the strength required for safety clothing for various uses.

[Problem that the invention seeks to solve]

However, these knitting yarns have disadvantages such as poor gripability and lack of lightness in the case of metal fibers, and disadvantages in the case of aramid fiber composite yarns such as poor weather resistance and durability. be. Furthermore, both of these knitting and weaving yarns are insufficient in wearability such as comfort when worn or workability, and are inferior in design properties such as color and design.

Therefore, the object of the present invention is to have sufficient strength as a knitting yarn for safety clothing, and furthermore, the fabric knitted by this yarn has sufficient strength as a knitting yarn for safety clothing.
To provide a composite yarn made of metal fibers and synthetic fibers that has properties required depending on its use, such as good gripability, weather resistance, and durability, as well as excellent wearability and design. be.

[Means for solving problems]

In order to achieve the above object, the composite yarn made of metal fibers and synthetic &a fibers of the present invention is produced by forming a pair of aramid fibers or a pair of aramid fibers and polymer fibers opposite each other around a flexible metal fiber. Direction 11! ! A core yarn is wound in a spiral shape, and a pair of polymer fibers are spirally wound in opposite directions around this core yarn or a core yarn group formed by combining a plurality of core yarns. It is characterized by

In Unknown 11DW, the term "polymer fiber A fiber" refers to fibers other than aramid fibers, such as nylon.

Refers to polymer fibers including polyester, polyacrylic nitrous, and the like.

[Effect]

The strength of the composite yarn constructed in this way is mainly provided by the metal fibers and aramid fibers that make up the core yarn, and the specific properties such as wearability, designability, and gripability are mainly provided by the winding around the core yarn. This can be achieved by appropriately selecting the polymer fibers to be applied. The number of core yarns is set to two or more depending on the strength required of the composite yarn.

〔Example〕

Next, examples of the composite yarn according to the present invention will be described in detail below with reference to the attached J-sized drawings.

FIGS. 1 and 2 show a composite yarn 10 according to the present invention and a core yarn 12 constituting this composite yarn 10. FIG. First, in FIG. 2, the core yarn 12 is constructed by placing a flexible metal fiber 18 in the core, surrounding it with aramid fibers 20, and then Z-twisting the outer periphery with polymer fibers or aramid fibers 22. 0 Next, in Fig. 2, composite yarn 1
0, two core threads 12 are pulled together, the periphery is wrapped with polymer fibers 14, and the outer periphery is wrapped with polymer fibers 16.
Then configure Z1. In this case, the polymer fiber 14
．． The twisting number 16 is 3 to 4 times the thickness of the core yarn 10 so that the gold H fibers are not exposed. Further, the number of core threads 10 is set to one, two, or three or more depending on the strength of the composite thread IO.

The metal fiber 18 is usually an annealed stainless steel wire, and its diameter is preferably in the range of 0.06 to 0.08 m. Note that the metal fibers may be other metals, such as aluminum, depending on the purpose.

Fibers made of brass, copper, etc. can be used.

Aramid fibers 22 when used as aramid fibers 20 and fibers 22 are typically Kevlar (Kevla).
The thickness of the fibers 20 is preferably set to 400 denier, and the thickness of the fibers 22 is set to 200 denier. Note that as the aramid fiber, products from other manufacturers can also be used instead of Kevlar.

The polymer fiber 22 when used as the fiber 22 is
Usually, nylon is used, and its thickness is preferably set to 200 denier. The polymer fibers 14 and 16 may be nylon or polyester depending on the use of the composite yarn 10 to be completed.

The thickness of the fiber 14 is preferably 400 denier and the fiber 16 is 2 denier.
Set to 00 denier.

With this structure, the strength of the composite yarn 100 is determined by combining the strong metal fibers 18 constituting the core yarn 12 with the aramid fibers 20.22 having poor tensile strength and modulus.
The fabric woven by this composite yarn 10 is made of selected polymer fibers 14.16.
Depending on the characteristics of the product, it is given a unique wearability, design, and specific characteristics. Therefore, by using this fabric, various types of equipment, such as ski gloves, which are excellent in design, wearability, and safety can be produced.

Sports or daily goods such as ski supports, hang glider supplies, motorcycle supports, motor boat spokes, work tools such as work gloves, etc. can be provided according to their respective uses. Also,
This composite yarn has good mechanical operability in knitting and weaving cloth because the metal fibers constituting it are made of highly flexible fine stainless steel wires.

〔Effect of the invention〕

As explained above, the composite yarn made of metal fibers and synthetic fibers according to the present invention is produced by winding aramid fibers around flexible gold B fibers to form a core yarn, and
Polymer fibers selected according to the application are further wrapped around the yarn or multiple yarns, so the fabrics woven with this composite yarn have strong metal fibers and excellent tensile strength. In addition, the selected polymer fibers provide excellent wearability, design, and specific properties depending on the application.

Therefore, by using this fabric, various tools with excellent design, wearability, and safety can be obtained.

For example, wearing equipment for skiing, hang gliding, etc., working tools such as work gloves, etc. can be provided according to the respective uses.

[Brief explanation of the drawing]

FIG. 1 is an elevational view illustrating the structure of a composite yarn made of 1m gold fiber and synthetic fiber according to the present invention, and FIG. It is an elevational view explaining the composition of one example of the core yarn in a composite yarn consisting of: 10... Composite yarn 12... Core yarn 14.16.
... Polymer fiber 18 ... Metal fiber 20 ... Aramid fiber 22
...For aramid fiber or polymer fiber procedure correction (voluntary) July 15, 1988

Claims (1)

[Claims] (1) A core yarn is formed by winding a pair of aramid fibers or a pair of aramid fiber and polymer fiber around a flexible metal fiber in opposite directions spirally, and this core yarn or this core yarn A composite yarn made of metal fibers and synthetic fibers, characterized in that it is constructed by winding a pair of polymer fibers spirally in opposite directions around a core yarn group consisting of a plurality of core yarns.