JP2002030552A - Raschel fabric having deororizing and antimicrobial properties and product thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a raschel fabric having deodorizing and antimicrobial actions by imparting titanium oxide photocatalyst to raw yarns and then knitting the raw yarns, and to provide a product obtained from the raschel fabric. SOLUTION: This raschel fabric having the deodorizing and antimicrobial actions, obtained by imparting titanium oxide photocatalyst to synthetic yarns such as nylon yarns, acrylic yarns or polyester yarns, regenerated yarns such as rayon yarns, natural fibers such as cotton or wool, or their blended yarns and then subjecting the obtained raw yarns to a raschel knitting operation, and the product of the raschel fabric.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to synthetic fibers, regenerated fibers,
The present invention relates to a Raschel knitted fabric having a deodorant and antibacterial property obtained by imparting a titanium oxide photocatalyst to natural fibers and their blended yarns, and a product thereof.

[0002]

2. Description of the Related Art Conventionally, a knitted or woven fabric to which a metal oxide has been imparted has been known as a fiber cloth having an antibacterial deodorizing action and a neutralizing action. Further, deodorants are also known due to the adsorbing action of activated carbon or silica on shoe insoles. These all adsorb ambient malodorous components and lower the concentration thereof, but the amount of malodorous components does not decrease as a whole, and thus has not reached a fundamental solution. Further, the odor components of isovaleric acid and axillary odor generated when the human body sweats are mixed with lower fatty acids, and it is said that it is difficult to completely deodorize these components.

[0003]

SUMMARY OF THE INVENTION The present invention is directed to a Raschel knitted fabric which is one of the above-mentioned problems of the prior art and which has an extremely excellent deodorizing and antibacterial action, and a product thereof.

[0004]

In order to achieve the above object, the present invention has a deodorizing and antibacterial action in which a titanium oxide photocatalyst is adhered to a raw yarn on an average and the raw yarn is knitted on a Raschel knitted fabric. The structure of the knitted fabric and its product is as follows.

[0005]

DETAILED DESCRIPTION OF THE INVENTION Synthetic fibers such as nylon, acrylic and polyester, regenerated fibers such as rayon, natural fibers such as cotton and wool, and their mixed yarns are provided with a titanium oxide photocatalyst. A knitted Raschel knitted fabric having deodorant and antibacterial properties and a product thereof.

[0006] In the present invention, the titanium oxide photocatalyst is one which is excited by ultraviolet rays to generate oxygen from water or decomposes organic matter, and specifically refers to an acetase type catalyst. Titanium oxide for photocatalyst decomposes halogen-containing organic matter in water into carbon dioxide gas and water molecules. As a method of fixing titanium oxide to the original yarn, the original yarn is immersed in a titanium oxide photocatalyst aqueous solution using a water-soluble resin binder,
Squeeze dry with a roll. A titanium oxide photocatalyst is attached together with a synthetic resin binder in order to evenly attach titanium oxide to the surface of the yarn. In this case, the particle diameter of the titanium oxide photocatalyst is preferably 40 nm or less, and if the particle diameter is too large, it tends to fall off during knitting, and the adhesion amount of the titanium oxide photocatalyst is in the range of 0.1% to 2%. It is preferable that if the amount of titanium oxide attached is large, the yarn becomes hard and knitting becomes difficult. As the resin binder used in the present invention, an acrylic resin or a urethane resin is used, and a crosslinking agent such as a melamine resin or an epoxy resin may be used in combination in order to prevent the titanium oxide photocatalyst particles from falling off during washing and dry cleaning. Melamine resins and epoxy resins are suitable as the binder resin which does not change color even when irradiated with sunlight, and those which can be cured under heating conditions or at room temperature are preferable, as they are preferably water-soluble.

[0007] The Raschel knitted fabric knitted with the above yarns is
Tissue is similar to tricot knitting, but it is knitted using a beard needle as a needle of a knitting machine, a complex pattern can be knitted using a jacquard device, the fabric has good air permeability, compared to knitted knitting It has little elasticity and resembles a woven fabric.It is dazzling and strong like a knit or a woven fabric, and is suitable for clothing such as underwear and sportswear that are easy to sweat by cutting and sewing. In addition, the Raschel knitted fabric has a large surface area, and has good sweat absorption and air permeability.

[0008]

According to the present invention, a Raschel knitted fabric having excellent deodorant and antibacterial functions can be provided. In particular, a Raschel knitted fabric has a large surface area as a knitted fabric and is formed by loops. Since it is not dazzling like knitting, has little elasticity, and can be cut into various sizes for use, it can be effectively used for clothing, especially sweaty underwear, athletic clothes, shoe insoles, and the like.

Example 1 4.0 wt% of an aqueous dispersion of titanium oxide photocatalyst (particle diameter: 10 nm; solid content: 35%) was added to the fibrous yarn of polyester fiber No. 50. Trimethylolmelamine (solid content 60%) 0.49
weight%. Melamine curing catalyst 0.05% by weight. Water 95.
46%. The polyester fiber is immersed in the above treatment liquid, squeezed with a roll, and then placed in a dryer at 110 ° C.
Dry for minutes. The raw yarn of the polyester fiber was knitted to obtain a Raschel knitted fabric. This Raschel knitted fabric has a basis weight of 1
The amount of titanium oxide attached to 00 g / m ² was about 0.1% by weight.

Next, a sweat deodorizing test was performed on the raschel knitted fabric in the following manner. Test method A titanium oxide catalyzed Raschel knitted fabric and an untreated Raschel knitted fabric of about 20 cm × 20 cm were fixed on a glass plate, and isovaleric acid was added as an odor component of sweat to acetone 1%.
Ten drops of the solution dissolved in the concentration were dropped on each Raschel knitted fabric with a pipette, and acetone was air-dried. Each sample was placed in a transparent synthetic resin container, sealed, exposed to sunlight for 1 hour, and the concentration was measured with a detector tube for acetic acid.
At ppm, a strong odor was felt, whereas the Russell knitted fabric treated with the titanium oxide photocatalyst was 2 ppm, and the raschel knitted fabric treated with the titanium oxide photocatalyst hardly felt any odor.

Example 2 8.0 wt% of a titanium oxide photocatalyst aqueous dispersion (particle diameter: 10 nm; solid content: 30%) was added to a nylon yarn of No. 60 yarn.
Melamine (60% solids) 0.5% by weight. Melamine curing catalyst 0.04% by weight. Water 91.46% by weight. The nylon fiber yarn was immersed in the treatment solution, squeezed with a roll, then placed in a dryer at 110 ° C., dried for 2 minutes, and knitted with this treated yarn into a raschel knitted fabric. The amount of the titanium oxide photocatalyst attached to the Raschel knitted fabric was examined.
The amount of titanium oxide attached to 00 g / m ² was 0.16% by weight.

Test Method Evaluation of antibacterial activity was carried out by a bacteria measurement method (Textile Sanitary Processing Council). The culture was carried out using a Staphylococcus aureus under a fluorescent lamp under untreated Russell knitted fabric and a Russell knitted fabric knitted with a yarn treated with a titanium oxide photocatalyst. The untreated Raschel knitted fabric had a difference in the number of bacteria of 0.21, whereas the difference in the number of bacteria of a Russell knitted fabric using a titanium oxide photocatalyst-treated yarn was 4.20, and the (number of bacteria) Increase / decrease value difference 1.
A score of 6 or more was accepted. It was clearly found that Russell knitted fabric using titanium oxide photocatalyst treated yarn had antibacterial properties under fluorescent lamp irradiation.

Example 3 8.2% by weight of an aqueous dispersion of titanium oxide catalyst (particle diameter: 20 nm; solid content: 20%) was added to a 100% cotton yarn. Acrylic resin 3.0% by weight. 0.4% by weight of an aziridine crosslinking agent. 88.4% by weight of water. The raw yarn was immersed in the treatment liquid, squeezed with a roll, placed in a dryer at 120 ° C., dried for 2 minutes, and knitted into a Russell knitted fabric with the raw yarn. The amount of the titanium oxide photocatalyst attached to the knitted fabric was 0.94% by weight. The raschel knitted fabric was subjected to a deodorizing test for tobacco odor. Test method Light a cigarette with a filter, smoke it once,
Stand the cigarette vertically with the filter down, 600ml
A wide-mouth synthetic resin bottle on top of it and burn
Collected for minutes. Similarly, Russell knitted fabric which was not treated with titanium oxide photocatalyst was collected for 1 minute by combustion gas in the same manner as described above. After the odor of tobacco is attached to the knitted fabric, the fabric is left under an ultraviolet lamp (ultraviolet intensity: 0.7 mw / cm ² ) for 2 hours, and the sensory evaluation of the odor results in a knitted fabric treated with titanium oxide photocatalyst. From the Russell knitted fabric, there was almost no odor of tobacco, and the untreated Raschel knitted fabric remained stinking.

Example 4 A mixture of an acrylic yarn and a rayon yarn was 8.0 wt% of a titanium oxide photocatalyst aqueous dispersion (particle size: 10 nm, solid content: 17%). acrylic resin. 3.0 double weight%. 0.4% by weight of an aziridine crosslinking agent. 88.6% by weight of water. The yarn was immersed in the treatment solution, squeezed with a roll, placed in a drier at 100 ° C. and dried for 3 minutes, and the yarn was knitted to form a Russell knitted fabric. The amount of titanium oxide attached to the knitted fabric was 1.21% by weight.

Test Method Isovaleric acid, an odor component of sweat, was dissolved at a concentration of 1% in acetone on a Russell knitted fabric in which the above-mentioned knitted fabric was treated with titanium oxide photocatalyst of 10 cm × 10 cm and on an untreated Russell knitted fabric. With a pipette, drop a drop on each knitted fabric,
Acetone is naturally dried, and the UV intensity is 5.0 nw /
Exposure was for 20 minutes under cm ² sunshine. Then, each of the samples was put in a bag made of polyethylene and subjected to a sensory evaluation of odor. As a result, the Russell knitted fabric treated with titanium oxide photocatalyst had almost no odor, and the untreated Russell knitted fabric had a strong sweat odor.

[Brief description of the drawings]

FIG. 1 is an explanatory enlarged view of a state in which a titanium oxide photocatalyst is attached around a raw yarn.

FIG. 2 is a partially enlarged explanatory view of a rassel knitted fabric.

[Explanation of symbols]

 1 Raw yarn with titanium oxide photocatalyst 2 Russell knitted fabric

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4D019 AA01 BA12 BA13 BB02 BC06 BC07 BC10 CB04 4L002 AA00 AA06 AA07 AA08 AB01 AC00 CA01 EA00 FA01 FA03 4L031 AA18 AA20 AB04 AB21 BA09 DA12 DA13 DA19 4L033 AA03 AC10 AB

Claims (2)

[Claims] 1. Deodorant and antibacterial properties obtained by applying a titanium oxide photocatalyst to synthetic fibers such as nylon, acrylic and polyester, regenerated fibers such as rayon, natural fibers such as cotton and wool, and raw yarns of blends thereof. Raschel knitted fabric. 2. A product obtained by knitting a Russell knitted fabric having deodorant and antibacterial properties by subjecting a raw yarn to a titanium oxide photocatalyst treatment and cutting the knitted fabric into an appropriate shape.