Composite thread containing metal-plated yarns and warp-knit fabric thereof

Abstract

A thread and a fabric are provided which are capable of being dyed to have a desired color and are formed of a metal-plated yarn excellent in antibacterial and electro-magnetic shielding properties. The thread for achieving this object is a composite thread (1) consisting of a chain stitch yarn (3) formed of a dyeable yarn and a metal-plated yarn (2) inserted as a core yarn into the chain stitch yarn (3). A fabric or a weft-knit product formed of the composite yarn (1) is excellent in antibacterial and electro-magnetic shielding properties and capable of having a favorable appearance of desired color. If the metal-plated yarn is directly arranged in the warp-knit fabric, the metal-plated yarn (51, 52, 53, 54) is preferably inserted to be invisible to a human eye from the surface of the warp-knit fabric.

Description

[0001] The present invention relates to a composite thread comprised of metal-plated yarns having an antibacterial property and an electromagnetic shielding property combined with dyeable yarns so that the former are not visible from the outside, a woven fabric or a weft-knit fabric containing such composite threads, and a warp-knit fabric wherein the metal-plated yarns are used alone as part of the knit fabric, while taking care not to expose outside the thread.PRIOR ART[0002] The recent trend of requiring an improvement in the quality of life demands amenities in the environment. Particularly, in a high-temperature and high-humidity environment such as in Japan, various bacteria are liable to damage the health life or generate a bad odour. Therefore, underwear or others are often treated with antibacterial agents.[0003] On the other hand, as the electronic technology has developed, various electronic equipments such as TV sets, word processors or personal computers, which scatter ...

AI Technical Summary

Benefits of technology

[0013] When a warp-knit fabric is obtained by using the metal-plated yarn itself, the metal-plated yarn may be inserted as an inlay yarn into the warp-knit fabric to be invisible to a human eye from the surface of the warp-knit fabric. If two kinds or more of metal-plated yarns are supplied through different reeds so that the different kinds of metal-plated yarns intersect each other in the warp-knit fabric, the electro-conductivity of the metal-plated yarns is improved to facilitate the electro-magnetic shielding property of the warp-knit fabric.

[0025] The metal-plated yarn used in the present invention is also excellent in anti-static property. Thus, a composite thread, fabric formed of the composite thread and a warp-knit fabric containing a metal-plated yarn result in splendid effects on the antibacterial property and the electro-magnetic shielding property as well as the anti-static property.

Problems solved by technology

Particularly, in a high-temperature and high-humidity environment such as in Japan, various bacteria are liable to damage the health life or generate a bad odour.

On the other hand, as the electronic technology has developed, various electronic equipments such as TV sets, word processors or personal computers, which scatter electromagnetic waves therefrom, have come into wide use at work or in the home, resulting in a problem of potential physical problems due to irradiation with electromagnetic waves.

Also, if a hygienic and safety standpoint is taken into account, there is no antibacterial agent sufficiently effective for all the textile products.

It is, however, impossible to apply effective electromagnetic shielding to all electronic equipment of various types.

The clothing made of the cloth with the coated layer containing powdery metal, however, is heavy in weight and is actually difficult to dye in the various colors desired for apparel.

However, the metal-containing fibers obtained by kneading a thermoplastic resin with metallic particles and melt-spinning the same could not exhibit a sufficient antibacterial property because the metallic particles are embedded in the fibers.

The maximum content of metal in the fiber obtainable by a high-speed melt spinning process is as low as about 0.5% which results in poor antibacterial and electromagnetic shielding properties.

While a 100% metallic yarn made, for example, of silver or copper; i.e., a metallic wire; has sufficient antibacterial and electromagnetic shielding properties, it is not usable as a yarn for forming clothing due to its poor pliability.

However, there is a problem when this yarn is used alone or in combination with another synthetic yarn as a twisted yarn.

The X-Static.RTM. yarn, however, inherently has a silver color on the surface thereof and is not dyeable to desired colors as in conventional natural or synthetic fiber yarns.

If twisted with another synthetic yarn, the resultant yarn is unevenly dyed.

In addition, if the yarn is used while always maintaining the metal in an exposed state, the metal is abraded to interfere with the long term maintenance of the antibacterial property and the electromagnetic shielding property.

The problem in dyeing is also accompanied when the X-Static.RTM. yarn is mixedly used in a woven fabric or a knit fabric in the conventional manner.

This means that the kinds of yarn used in the present invention and effects resulted therefrom are different from those of the above-mentioned known composite threads, and further, the known composite threads have no antibacterial and electro-magnetic shielding properties and provide no means for improving the dyeability thereof which has been deteriorated by the use of metal-plated yarns.

However, the metal-plated yarn itself is expensive, and the composite thread formed of such a metal-plated yarn becomes more expensive.

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