JP2006225811A - Pasting photocatalyst titanium oxide fiber and lace curtain - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a pasting fiber capable of being repeatedly pasted and containing titanium oxide, and to provide a lace curtain. <P>SOLUTION: This pasting photocatalyst titanium oxide fiber is formed by fastening a photocatalyst titanium oxide-based compound to the fiber, wherein the fiber is repeatedly pasted once, twice, or more times onto a tabular surface, etc., by using a pressure-sensitive adhesive substance. Further, the fiber is used by being formed into a shape of the lace curtain. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

The present invention relates to a titanium oxide fiber that can be attached to a plate-like surface such as glass having deodorizing, antibacterial or light shielding, scattering prevention and many other effects by the photocatalytic action of a titanium oxide compound.

  In recent years, the photocatalytic action of titanium oxide has attracted attention in various industrial fields. For the purpose of deodorization, removal of harmful substances, antifouling, etc., titanium oxide is used in various applications such as air purifiers, outer walls and building materials. It is used.

  Patent Document 1 discloses a curtain formed by attaching a heat reflecting film to a curtain.

Patent 2597769

In order to effectively produce the photocatalytic action of titanium oxide, titanium oxide is generally used where it is easily exposed to sunlight.

However, when titanium oxide is fixed on the film, the pigment dye mixed in the film is decomposed by the bleaching action of active oxygen generated by the reaction catalyzed by titanium oxide, so that the sufficient light shielding effect could not be exhibited. .

In the case of fixing titanium oxide to the film, a method of attaching to the film surface by spraying is generally used. However, in this method, titanium oxide is easily peeled off, and there is a problem in sustainability of the effect. It was.

Moreover, since there is no air permeability on the property of a film, when affixing, since many bubbles are easy to produce between a film and a glass surface, the affixing operation | work was difficult. Moreover, since it is thin and easily torn, once it is pasted on a glass surface or the like, it is very difficult to re-paste it again, and there is a problem that it cannot be reused.

On the other hand, when titanium oxide is fixed to the lace curtain, it is possible to compensate for the drawbacks of the above film, but for installation, fixtures such as curtain rails are essential, and the use is limited depending on the location and space. Have the problem of being. Further, since the lace and the glass surface are not in close contact with each other, it has to be washed if it gets in the way or gets dirty.

Therefore, the present invention has been made in view of the above problems, and has fixed the photocatalytic titanium oxide which has the effects of deodorization, antibacterial and the like and can be reapplied multiple times while compensating for the disadvantages of the film and the lace curtain. The present invention provides a titanium oxide fiber and a lace curtain to be attached to a plate-like surface such as glass.

  In order to solve the above problems, the photocatalytic titanium oxide fiber for application according to claim 1 can be reapplied a plurality of times, and the gist is that titanium oxide having a photocatalytic action is fixed.

  In order to solve the above-mentioned problems, the photocatalytic titanium oxide lace curtain for application according to claim 2 can be reapplied a plurality of times, and the gist is that titanium oxide having a photocatalytic action is fixed. .

According to the titanium oxide fiber and the lace curtain according to the present invention, since the titanium oxide having a photocatalytic action is fixed, the anti-bacterial and deodorizing effects are obtained by the photocatalytic action of the titanium oxide irradiated with ultraviolet rays while having a light shielding effect. It is possible to provide a titanium oxide fiber that can be reapplied a plurality of times and has an effect.
Furthermore, according to the race curtain of titanium oxide fiber according to the present invention, it is possible to absorb the impact due to an earthquake or the like, protect a plate-like surface such as glass, and prevent scattering when the glass is damaged. Become.

The film containing a titanium oxide fiber according to the present invention utilizes the photocatalytic action of “titanium dioxide” (“TiO ₂ ”, which uses the simplified name “titanium oxide” in the present invention).
Titanium oxide is a safe and harmless substance that is often used mainly for pigments and is also recognized as a cosmetic, toothpaste, and food additive, but is known to act as a photocatalyst when exposed to ultraviolet light.
The photocatalytic action of titanium oxide generates active oxygen by reacting with oxygen and water in the air, and organic substances such as malodorous components contained in the air, microorganisms, Bacteria are oxidatively decomposed into harmless water and carbon dioxide.

Sunlight contains about 3% of ultraviolet rays as energy, and a small amount of light from fluorescent lamps contains ultraviolet rays. If it is outdoors, a sufficient amount of ultraviolet light can be obtained even in the shade, but indoors, there is only a small amount of ultraviolet light from fluorescent lights, except for sunlight entering through windows. However, even if it is indoors, the effect of the photocatalytic action of titanium oxide can be sufficiently obtained if the treatment is performed in a minute amount such as a bad odor or bacteria emitted by a pet.
Since titanium oxide itself does not change or deteriorate in the process of generating active oxygen, the effect can be maintained as long as it is exposed to ultraviolet rays.

Since titanium oxide is a powder, in order to use titanium oxide as a photocatalyst, it is necessary to fix titanium oxide to the fibers forming the race so that it will not be blown by the wind or washed away by water. is there. The fixing method may be any method as long as titanium oxide can cause a photocatalytic action.
In order to effectively obtain the deodorizing and antibacterial effects, it is preferable to fix titanium oxide to the entire fiber as much as possible, but it is also possible to fix titanium oxide only to a part of the fiber.

It can be fixed on the surface of the fiber by utilizing the thermoplasticity of the fiber, or it can be fixed by bonding and adhering to the fiber with a resin binder. However, with such a method, the binding force of the titanium oxide to the fiber is weak and the fiber surface It is preferable to contain titanium oxide in the fiber and fix it.
That is, after spinning the fiber containing titanium oxide by a wet spinning method or the like, it is preferable to firmly fix the titanium oxide to the fiber by bringing the titanium oxide dispersion into contact with the titanium oxide dispersion in an undried state that has not been dried. The method of bringing the titanium oxide dispersion into contact with the fiber may be any means such as immersing the fiber in the titanium oxide dispersion or spraying the fiber with a titanium oxide dispersion.
As the fiber containing titanium oxide, synthetic fibers such as polyvinyl alcohol fibers and acrylic fibers, semi-synthetic fibers such as cellulose acetate fibers, and regenerated fibers such as rayon are preferable.
The fiber containing titanium oxide may be used alone, or may be used in the form of spun yarn, woven fabric, knitted fabric, nonwoven fabric or the like containing the fiber.

  When titanium oxide is contained in the fiber, not only harmful organic substances but also the fiber itself may be decomposed due to its strong photocatalytic action. For example, it is more preferable to coat the surface of titanium oxide with calcium phosphate. Since calcium phosphate is inactive as a photocatalyst and is porous, coating the titanium oxide surface makes it possible to enhance the durability of the fiber without impairing the photocatalytic function of titanium oxide.

Moreover, in order to affix the titanium oxide fiber which concerns on Claim 1 on plate-shaped surfaces, such as glass, an adhesive etc. are used. As the pressure-sensitive adhesive, water-soluble pressure-sensitive adhesives and pressure-sensitive adhesives that can be generally used for cloths and the like can be used.
Further, the fiber can be attached to any plate-like surface such as a window glass, a wall, a door, a ceiling, and a partition plate.

  A first embodiment of the present invention will be described with reference to the drawings. The present embodiment relates to a lace curtain using a titanium oxide fiber to which titanium oxide having a photocatalytic action is fixed.

As shown in FIG. 1, the lace according to this example has a pressure-sensitive adhesive (A) applied to the back surface, and a film (2) for peeling is attached to protect the pressure-sensitive adhesive. When in use, near the glass surface (3) where the lace curtain is to be attached, cut the lace curtain with film into the shape of the glass surface, and place the protective film (2) in the direction → as shown in FIG. And the adhesive surface is adhered to the glass surface. Then, a lace will be affixed on a glass surface like FIG. At this time, since the lace itself is a fabric and has a thickness, it can be re-stretched any number of times. In addition, the lace is formed by using a fiber (1) containing titanium oxide having a photocatalytic action, and in this embodiment, ethylene terephthalate is the main repeating unit. A core-sheathed fiber having a core part made of polyester, a polyester having ethylene terephthalate as a main repeating unit, a polyester having butylene terephthalate as a main repeating unit, and a sheath part made of photocatalytic titanium oxide coated with calcium phosphate Use to form.
With such a fiber, since the titanium oxide is coated with calcium phosphate, the deterioration of the polyester fiber itself due to the photocatalytic action of the titanium oxide can be prevented. Furthermore, since the core-sheath structure is used, it is possible to prevent filament breakage due to aggregation of titanium oxide during yarn production.

It is preferable to coat calcium phosphate at 0.2 wt% or more and 10 wt% or less with respect to titanium oxide. If the amount is less than 0.2% by weight, it is difficult to prevent the deterioration of the polyester fiber. Conversely, if the amount exceeds 10% by weight, sufficient performance of the photocatalytic titanium oxide cannot be obtained.
The content of titanium oxide is preferably 0.1% by weight to 5% by weight, and more preferably 0.5% by weight to 2% by weight. If it is less than 0.1% by weight, it is difficult to obtain a sufficient deodorizing effect. Conversely, if it exceeds 5% by weight, there is no change in the deodorizing performance and the cost is wasted.
The weight ratio between the core and the sheath is preferably 40:60 to 80:20, and more preferably 50:50 to 70:30. This is because if the weight ratio is less than 40:60, titanium oxide not exposed on the fiber surface increases and the cost is wasted, whereas if it exceeds 80:20, the sheath portion is not stably formed.

  The core-sheath fiber which concerns on a present Example is manufactured as follows. That is, titanium oxide coated with calcium phosphate is kneaded with polyester having butylene terephthalate as a main repeating unit to form a master batch, and the master batch is mixed with polyester having ethylene terephthalate as a main repeating unit to form a sheath component. And The core-sheath structured fiber as described above can be obtained by using a component composed of polyester having ethylene terephthalate as a main repeating unit as a core component and melt spinning with a known core-sheath compound spinning machine.

  FIG. 2 is a diagram showing a usage state when a lace curtain using a titanium oxide fiber for attachment according to the present embodiment is used for a window glass.

  When the film (1) containing the titanium oxide fiber for attachment is attached as described above, the titanium oxide for attachment is produced by the photocatalytic action of titanium oxide contained in the fiber forming the film containing the titanium oxide fiber for attachment. As long as the film containing fibers is irradiated with ultraviolet rays, the effect of deodorizing and sterilizing bacteria and tobacco can be continuously obtained.

Table 1 shows the test results regarding the deodorizing properties of the fibers used in the film containing the titanium oxide fibers for attachment according to this example.
The test is performed by placing a sample of 12 × 12 cm in a 500 ml Erlenmeyer flask, setting the initial concentration of gas (formaldehyde) to 60 ppm, and measuring the gas concentration after 2 hours and 24 hours by the detector tube method. went. The test room temperature was 20 ° C. and the ultraviolet intensity was 1 mW / cm ² (sample surface).
In Comparative Example 1, the same operation was performed without putting a sample.

  According to Table 1, the fiber used for the titanium oxide fiber (1) for application according to this example reduced the formaldehyde concentration in the Erlenmeyer flask to 1 / 7.5 after 24 hours, and the effect was It was about 6 times that of Comparative Example 1.

As mentioned above, according to the present Example, it becomes possible to provide the titanium oxide fiber for sticking which exhibits a deodorant and antibacterial property continuously by the photocatalytic action of a titanium oxide.
In particular, in this example, since titanium oxide was coated with calcium phosphate, it was possible to prevent deterioration of the fiber itself and to form a film (1) containing titanium oxide fibers for attachment with fibers having a core-sheath structure. It is also possible to prevent thread breakage or the like. It is preferable to attach such a lace curtain to a window or a wall since an air cleaning function is recognized.

  A second embodiment of the present invention will be described with reference to the drawings. The present embodiment relates to a titanium oxide fiber for sticking (for forming a translucent smoke glass) to which titanium oxide having a photocatalytic action is fixed, and relates to use in a vehicle.

  As shown in FIG. 3, since the titanium oxide fiber (7) for attachment according to this example needs to be adhered and adhered to the window glass of an automobile like a film, the thickness is about 1 mm to 5 mm. It is preferably a fiber. Since such a thin fiber is used, opening and closing of the window is not hindered. In addition, the antibacterial and deodorizing effects of titanium oxide can be achieved while maintaining the light shielding effect.

  In addition, compared to a lace curtain, it can be expected to prevent the glass from being scattered in the event of an accident without giving a feeling of pressure to the indoor space. Furthermore, there is an air purifying effect in the vehicle, and it is not necessary to prepare another deodorant or the like, which is convenient. Furthermore, since it is fibrous, unlike conventional smoke films, it can be easily peeled off even if pasting fails and is easy to handle.

  This invention provides the film containing the photocatalyst titanium oxide fiber which can be reattached which can exhibit the deodorizing and antibacterial property, and a scattering prevention effect continuously, and has industrial applicability.

FIG. 3 is a cross-sectional view when using a titanium oxide fiber for attachment according to the first embodiment. FIG. 3 is a view showing a usage state of a lace curtain of a titanium oxide fiber for attachment according to a first embodiment. It is a figure which shows the state which used the titanium oxide fiber which concerns on a 2nd Example as smoke of a car.

Explanation of symbols

1 Lace curtain containing photocatalytic titanium oxide fiber A Adhesive 2 Adhesive protective film 3 Glass
4 Window frame 5, 7, 9 Glass pasted with titanium oxide fiber 6, 8 Door frame of passenger car

Claims (2)

A photocatalytic titanium oxide fiber to which a photocatalytic titanium oxide compound is fixed, which can be reattached to a plate-like surface or the like once or more by an adhesive substance. A photocatalytic titanium oxide fiber lace curtain for pasting, wherein the photocatalytic titanium oxide fiber according to claim 1 is formed into a lace shape.

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