JPH1028640A - Deodorant carpet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a carpet which can semipermanently maintain deodorant effect excellent even under such condition that the dirt of shoes or the like adhere to it. SOLUTION: A deodorant carpet is the carpet of high and low structure which has a low pile layer and a high pile layer, and the low pile layer contains fibers which have photocatalyst activity to the odorous components within the air. Or, the fibers which have photocatalytic activity contain anatase titanium oxides. Or, the low pile layer and for the high pile layer contain the fibers which have deodorant function by physical adsorption or chemical adsorption. Then, the high pile layer is constituted of tall-processed thread.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deodorant carpet, and more particularly to a deodorant carpet capable of maintaining a deodorant effect semipermanently.

[0002]

2. Description of the Related Art Conventionally, a fiber obtained by copolymerizing acrylonitrile and acrylic acid, which is provided with copper, is disclosed in Japanese Patent Application Laid-Open No. Sho 62-47551, for example, as a fiber for eliminating the odor of the space. Deodorant fibers such as (Deo Green (registered trademark) manufactured by Asahi Kasei Corporation) are known. When carpets manufactured using such deodorant fibers are used for a long time, stains on shoe soles adhere to the carpets,
There is a problem in that these block the functional groups and the like in the fiber having a deodorizing effect, so that the deodorizing effect is reduced. Similarly, when a carpet is made of a fiber kneaded with particles having photocatalytic activity, dirt components such as shoe soles adhere to the surface of the titanium oxide, and active oxygen generated by light irradiation is consumed for decomposition of the dirt. As a result, there is a problem that the odor of the space, which is the original purpose, cannot be eliminated.

[0003]

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems of the prior art, and to maintain an excellent deodorizing effect semipermanently even in a situation where shoes become dirty. An object of the present invention is to provide a deodorant carpet that can be used.

[0004]

Means for Solving the Problems The inventors of the present invention have conducted intensive studies in view of the above-mentioned problems. As a result, even if a fiber having photocatalytic activity is used in a carpet, a sufficient deodorizing effect can be obtained even if the fiber is used in a carpet. Focusing on the fact that dirt components adhere to the surface of photocatalytically active particles and that active oxygen generated by light irradiation is used to decompose the dirt, the high-and-low structure was used. In the carpet having, by using a fiber containing particles having photocatalytic activity in the low pile layer, and by adsorbing dirt on the high pile layer to protect the low pile layer, the activity of the fiber is maintained for a long time, and a sufficient deodorizing effect is obtained. The present inventors have found that they can be obtained, and have reached the present invention. That is, the invention claimed in the present application is as follows.

(1) A carpet having a high-and-low structure having a low-pile layer and a high-pile layer, wherein the low-pile layer contains fibers having photocatalytic activity against odorous components in the air. Deodorant carpet. (2) The deodorizing carpet according to (1), wherein the fiber having photocatalytic activity contains anatase-type titanium oxide. (3) The deodorizing carpet according to (1) or (2), wherein the low pile layer and / or the high pile layer contains fibers having a deodorizing function by physical adsorption or chemical adsorption. (4) The deodorizing carpet according to any one of (1) to (3), wherein the high pile layer is made of a bulky yarn.

The deodorizing carpet of the present invention has a high and low structure having a low pile layer and a high pile layer, and the low pile layer contains fibers having photocatalytic activity against odorous components in the air. In the present invention, the photocatalytic activity is a property in which a catalytic action is developed by light irradiation and a property of decomposing odorous components in the air by a chemical reaction such as an oxidation reaction, for example, holes are generated in the catalyst by light irradiation, Oxygen is generated by decomposing odorous components in the air by oxidation or the like.

[0007] A fiber having photocatalytic activity can be obtained by introducing particles having photocatalytic activity into the fiber. The particles having photocatalytic activity are not particularly limited as long as they have the photocatalytic activity as described above, and include, for example, titanium oxide and zinc oxide. Is an anatase type titanium oxide having high photocatalytic activity. The activity can be improved by doping titanium oxide with a metal such as palladium or copper. In order to provide the deodorizing cappet with a sufficient deodorizing effect, the acetaldehyde deodorizing rate upon light irradiation is preferably 80% or more, and more preferably 90% or more.

As a method for introducing particles having photocatalytic activity into the fiber, a method in which the particles having photocatalytic activity are kneaded into a spinning solution of the fiber and spun, and a method in which the fiber which has not yet been dried during wet spinning are used. Examples include a method of applying sol-formed titanium oxide in a state by an impregnation method. The content of the particles having a photocatalytic action on the fiber is not particularly limited, but is usually 0.1 to 10% by weight based on the fiber.
And preferably 0.3 to 5% by weight. When the content of titanium oxide is less than 0.1% by weight, the decomposition performance of the organic substance, particularly a compound containing a carbonyl group or an acidic compound, due to the catalytic action against the malodor may be low.
If the content is more than 10% by weight, it becomes difficult to contain titanium oxide in the fiber, the physical properties of the fiber are reduced, the feeling is reduced, and the fiber is wrapped in a subsequent process, for example, a spinning process, and the abrasion of a spinning machine. Problem may occur.

The size of the titanium oxide is not particularly limited as long as the production of the fiber is not hindered. However, the particle size of the titanium oxide is preferably 0.07 μm or less from the viewpoint of easy adhesion to the fiber. The particle size of the titanium oxide can be measured by measuring the particle size of the titanium oxide present in the dispersion using a laser diffraction scattering type particle size distribution analyzer (LA-910W, manufactured by Horiba, Ltd.).

[0010] The fibers used in the low pile layer are not particularly limited, but synthetic fibers such as acrylic fibers, polyvinyl alcohol fibers, polyester fibers, nylon fibers and the like, which have a small decrease in strength due to self-deterioration due to photocatalysis, are preferred. In addition, from the viewpoint of sufficiently exerting the action of the photocatalyst by adhering the photocatalyst particles to the fiber surface, a synthetic fiber such as an acrylic fiber in which the photocatalyst sol is introduced in a gel swelling state by a dip nip method during wet spinning is preferable. .
Further, these fibers are more preferably fibers having a deodorizing function by physical adsorption or chemical adsorption from the viewpoint of improving the deodorizing effect.

[0011] The fibers used in the high pile layer are not particularly limited, but fibers having a deodorizing function are preferably used, and more preferably a bulky processed yarn having a higher deodorizing effect. The reason for this is that although the bulky yarn has a very sparse structure despite the high space holding power required for the carpet, light transmission is good and the photocatalyst present in the fibers of the low pile layer This is because more light can be supplied to the active particles. As the bulky processed yarn, polyester fiber, nylon fiber, etc. are usually used.However, from the point that the malodor decomposition products generated by the photocatalytic action in the low pile layer are recaptured and deodorized, the chemical adsorption or physical adsorption is deodorized. It is preferable to use a deodorant fiber as a mechanism.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION

The present invention will be described more specifically with reference to the following examples. In the examples,% means% by weight unless otherwise specified. In addition, the evaluation of the deodorant performance was 1 in an actual office.
The carpet used for a month is cut into 6 tatami mats, laid in a closed space (33 m ³ ) of 6 tatami mats, smoke one cigarette, and smell after 12 hours under fluorescent lamp (20 W × 3) irradiation. Was evaluated according to the following six-step evaluation. 0: No smell 1: I do not know what smell, but it smells a little 2: A weak smell that can distinguish what kind of smell 3: A smell that is clearly noticeable 4: A quite strong smell 5: An unbearable strong smell

The acetaldehyde deodorizing rate of the fiber having photocatalytic activity upon light irradiation was measured by the following method.
First, in order to eliminate external factors in the sensory evaluation of deodorant performance and tobacco odor, fibers were previously irradiated with a fade meter (carbon arc method) at 63 ° C. for 40 hours.
The following acetaldehyde deodorizing test was performed. Capacity 100
1 g of the fiber was put together with 600 ml of 10 ppm of acetaldehyde in 0 ml of Tedlar bag (manufactured by GM Science), and the ultraviolet intensity was 0.5 mW / c for 120 minutes.
The residual concentration of acetaldehyde when allowed to stand under the black light m ² was measured by a gas detecting tube made Gastec Corporation. For the generation of acetaldehyde, a standard gas generator and a permeation tube manufactured by Gastech were used.
The temperature of the environment left to stand was 20 ° C. The deodorization rate during light irradiation was determined by the following equation. Deodorization rate = [(initial gas concentration-residual gas concentration) / initial gas concentration] x 100 (%)

Examples 1 to 5 and Comparative Examples 1 to 3 When spinning an acrylic fiber, a fiber swelling state which has never been dried is impregnated with a photocatalytic titanium oxide sol (STS-01, manufactured by Ishihara Sangyo Co., Ltd.). ) Was applied thereto and dried to obtain a fiber having photocatalytic activity. The acetaldehyde deodorizing rate of this fiber upon light irradiation was 100%.
A semi-worsted spun yarn of a 6-meter count was produced using 30% of the fiber having photocatalytic activity and 70% of ordinary regular acrylic fiber (Cashmilon, manufactured by Asahi Kasei Corporation) (hereinafter referred to as spun yarn A). Further, a semi-worsted spun yarn (6 m count) spun using 30% wool and 70% ordinary acrylic fiber (Cashmilon manufactured by Asahi Kasei Corporation) was produced (hereinafter referred to as spun yarn B).

Further, a fiber obtained by spinning a polymer obtained by copolymerizing acrylonitrile and acrylic acid at a mixing ratio of 80:20 by weight is treated with copper sulfate to obtain a deodorant fiber containing 7% of copper. Obtained. 30% of this deodorant fiber
A semi-worsted spun yarn was prepared by spinning 70% of ordinary acrylic fiber (hereinafter referred to as spun yarn C). The thus obtained spun yarn A (including a fiber having photocatalytic activity), spun yarn B (such as ordinary acrylic fiber), and spun yarn C
A carpet having a high-and-low structure having a high pile layer and a low pile layer as shown in Table 1 was produced using (including copper-containing deodorant fiber) and a commercially available polyester bulky yarn (manufactured by Asahi Kasei Kogyo Co., Ltd.). Each carpet was evaluated for its tobacco deodorizing effect after it was actually used in an office, and the results are shown in Table 1.

As a comparative example, a carpet (Comparative Example 1) obtained by uniformly cutting a spun yarn A containing a fiber having photocatalytic activity, and a spun yarn B made of ordinary acrylic fiber and the like
(Comparative Example 3) and a carpet (Comparative Example 2) using spun yarn B made of ordinary acrylic fiber or the like for the high pile layer and the low pile layer, and evaluated the results. The results are shown in Table 1.

[0017]

[Table 1]

From Table 1, it can be seen that the high-and-low deodorizing carpet using spun yarn A containing a fiber having photocatalytic activity in the low pile layer (Examples 1 to 5) has a deodorizing performance after actual use. It is shown to be high. It is also shown that a high deodorizing effect can be obtained by using a spun yarn A containing fibers having photocatalytic activity, a spun yarn containing bulky processed yarns or a deodorized fiber in the high pile layer (Examples 2 to 5).

Examples 6, 7, 8 and Comparative Example 4 When spinning an acrylic fiber, a photocatalytic titanium oxide (ST-01, manufactured by Ishihara Sangyo Co., Ltd.) was used in a spinning dope at 1% (Comparative Example 6) and 1.5%. % (Example 6), 2% (Example 7) and 3% (Example 8), respectively, and wet spinning was performed according to a usual method to obtain a fiber having photocatalytic activity.
Table 2 shows the acetaldehyde deodorizing rate of each of the obtained fibers upon light irradiation. A semi-worsted spun yarn having a 6-meter count was prepared using 30% of the fiber having photocatalytic activity and 70% of ordinary regular acrylic fiber (Cashmilon manufactured by Asahi Kasei). These worsted spun yarns are used as a low pile layer, and semi-worsted spun yarns (6 m count) spun from 30% wool and 70% ordinary acrylic fiber (Cashmilon manufactured by Asahi Kasei) are used as high pile layers, and high and low carpets are used. Manufactured. With respect to the obtained carpet, the deodorizing property of the tobacco after being actually used in the office was evaluated, and the results are shown in Table 2.

[0020]

[Table 2]

From Table 2, it is found that the acetaldehyde deodorizing rate of the fibers of the low pile layer at the time of light irradiation is preferably 80% or more, more preferably 90% or more, and the high and low structure using such fibers is obtained. It is shown that the carpet has high deodorizing performance after actual use (Examples 6 to 8).

[0022]

According to the deodorant carpet of claims 1 to 4 of the present application, since the fiber having photocatalytic activity is used in the low pile layer of the carpet having a high and low structure, the stains of shoes adhere. Under such circumstances, an excellent deodorizing effect can be maintained semipermanently.

Claims (4)

[Claims] 1. A high and low structure carpet having a low pile layer and a high pile layer, wherein the low pile layer contains fibers having photocatalytic activity against odorous components in the air. Deodorant carpet. 2. The deodorizing carpet according to claim 1, wherein the fiber having photocatalytic activity contains anatase type titanium oxide. 3. The deodorizing carpet according to claim 1, wherein the low pile layer and / or the high pile layer contain fibers having a deodorizing function by physical adsorption or chemical adsorption. 4. The deodorizing carpet according to claim 1, wherein the high pile layer is made of a bulky processed yarn.