JP5159104B2 - How to deodorize toilets - Google Patents

Description

  The present invention relates to a method for deodorizing toilets, and more particularly to a method for photocatalyzing a resin molded product.

  For example, cleanliness is the most important factor as consumers' motivation to purchase toilet articles such as deodorants and deodorants, and the tendency is remarkable. In recent years, ease of use has become important in the face of a super-aged society. Furthermore, toilet products can be refilled from a disposable type, for example, only active agents, due to consideration for the environment and economic benefits of consumers. Something came to be liked.

  Also, toilet toilets include antibacterial, deodorizing, and purifying substances by attaching a photocatalyst having an antibacterial effect such as adsorptive power or inactivation / removal performance against germs and odors on the surface of the toilet body (for example, Patent Document 1).

On the other hand, photocatalyst titanium apatite is known as a photocatalyst having a high antibacterial effect. Photocatalytic titanium apatite is a substance in which titanium and apatite with photocatalytic function are combined at the atomic level. All bacteria and bad odors captured by apatite with excellent adsorption power are evenly contacted with titanium atoms and all attached by ultraviolet rays. It can quickly decompose microorganisms and odors. And there exists a thing which knead | mixes this photocatalyst titanium apatite in resin, and utilizes it for a mobile telephone or a keyboard (for example, patent document 2).
Utility Model No. 2558923 JP-A-2005-29671

  Here, Patent Document 2 is intended for those that directly touch the user on a daily basis, and is most easily applied to toilet articles that are most likely to become dirty and that require excessive ease of use with a deodorizing effect. It is not a consideration.

  In addition, Patent Document 1 has a deodorizing effect on a toilet, but it is effective only when it is installed on the toilet toilet body. The toilet toilet body is replaced when a new house is built or when an extension or renovation is performed. In general, the application is large and costly, and is not practical.

  The present invention has been made in view of the above-described situation, and the purpose of the present invention is to provide a toilet that is easy to use and can enhance the deodorizing effect even in existing toilets in order to satisfy consumers' cleanliness. It is to provide a deodorizing method.

The above object of the present invention can be achieved by the following constitution.
(1) by a silica adsorption TiO ₂ or photocatalytic titanium apatite photocatalyst arranging the resin molded article by injection molding kneaded into the resin in the toilet, even where no light is irradiated to allow deodorizing, the resin molded product The toilet deodorizing method is characterized in that it constitutes a support part for supporting the refilling activator accommodating part in the fragrance supply device or the fragrance cleaning agent supply device .

In the configuration of the above (1 ) of the present invention, the photocatalyst is kneaded into the resin by focusing on the fact that the resin is easily kneaded and injection-molded with the photocatalyst instead of subjecting the toilet toilet body or the like to the photocatalyst treatment. A deodorizing effect can be easily obtained by placing the resin injection molded product molded into the toilet. Further, the present inventor has found that a resin molded product obtained by kneading silica adsorbed TiO ₂ or photocatalyst titanium apatite as a photocatalyst into a resin and obtaining injection molding can obtain a sufficient deodorizing effect without irradiation with light.
Various methods can be adopted as a method for treating the photocatalyst with a resin molded product. For example, kneading, adhesion, coating, etc. can be performed. Particularly, molding of a resin molded product by kneading is manufactured. This is preferable from the viewpoint of cost reduction. As the resin composition forming the resin molded product, a single or composite resin such as polypropylene, polyethylene, nylon (registered trademark), polyethylene terephthalate, polystyrene, or polycarbonate can be used.

Moreover, as a photocatalyst, a deodorizing effect can be heightened by using a titanium oxide and a photocatalyst titanium apatite. Furthermore, as a photocatalyst, titanium oxide coated with silica such as TKP-101 (silica-adsorbed TiO ₂ ), which can obtain a very high deodorizing effect against ammonia odor, which is the main cause of bad odor, is also suitable. is there. In particular, TKP-101 exerts a deodorizing effect that is the same as that under bright conditions because of electrostatic adsorption. In this case, the titanium oxide used as the photocatalyst should have an anatase type crystal structure, and it is desirable that the titanium oxide be physically or chemically coated with silica.

  As resin molded products treated with photocatalysts, those used in the toilet, that is, fragrance supply device, deodorant supply device, insecticide supply device, repellent supply device, insect repellent supply device, etc., or toilet water storage What constitutes at least a part of a fragrance supply device placed on the upper surface of the tank, a fragrance cleaning agent supply device attached to the periphery of the toilet bowl, and the like are preferable, and it is better to be arranged at a position close to the toilet bowl. The deodorizing effect can be further enhanced.

  Further, in these supply devices, for example, an active agent storage unit for storing the active agent and a support unit for supporting the active agent are included, and the active agent storage unit is replaced or filled for refilling. Recently, it has become commonplace. Therefore, when refilling is performed periodically, at least a part of the active agent supply device is used for a long period of time, so that it is difficult to maintain hygiene as it is. For this reason, it is hygienic for the resin molded product to be subjected to a photocatalyst treatment for a long period of time.

  ADVANTAGE OF THE INVENTION According to this invention, even in the existing toilet, it is easy to use and can improve the deodorizing effect at low cost.

  An embodiment of the present invention will be described. The fragrance cleaning agent supply apparatus according to the present invention will be described with reference to the drawings. However, this embodiment illustrates and describes one embodiment for carrying out the present invention, and is not limited at all.

  As shown in FIGS. 1 and 2, the fragrance cleaning agent supply device 10 according to the present embodiment is mounted on a concave water receiving portion 3 provided on the upper surface of a water storage tank 2 of a flush toilet 1 disposed in the toilet. Is to be used. The water receiving portion 3 is provided with a water injection hole 4 communicating with the water storage tank.

  The fragrance cleaner supplying apparatus 10 includes an activator container 11 that stores the fragrance cleaner L, and a bottomed cylindrical support section 15 that supports the activator container 11. In the state where the activator containing portion 11 is set on the support portion 15, the upper portion has a hollow hemispherical shape (spherical portion 12), and the lower portion has a cylindrical shape with a smaller diameter than the upper portion. The lower part of the activator accommodating part 11 is accommodated in the support part 15. An opening is provided in the lowermost part of the activator accommodating portion 11, and the opening is closed by an inner plug 17 formed of an elastic body such as plastic or rubber. Instead of the inner plug 17, the holding carrier 18 described later may have a plug function. Further, the opening may be made as small as possible to taper the active agent containing portion 11, and the deformation may be made so as not to hinder the implementation.

  The activator accommodating portion 11 is transparent. The activator accommodating portion 11 is made of transparent or translucent resin or glass. In addition, when the aromatic cleaning agent L accommodated in the activator accommodating part 11 is completely consumed, the activator accommodating part 11 is periodically replaced for refilling.

  The support part 15 has a bottom wall 15a and a peripheral wall 15b. A plurality of water inlets 16b are provided in the lower part of the peripheral wall 15b at intervals in the circumferential direction. The bottom wall 15a is also provided with a plurality of water inlets 16a. A holding carrier 18 is laid on the upper surface of the bottom wall 15a so as to close the water inlet 16a. In addition, the support portion 15 includes a support piece 25 that is joined to the bottom wall 15a and directly supports the active agent accommodating portion 11, and a plurality of water inlets 16c are also provided below the support piece 25. Is provided.

  On the upper surface of the central portion of the bottom wall 15 a of the support portion 15, there is provided a hollow columnar (here cylindrical) active agent transmitting member 20 that rises upward when set on the support portion 15 and penetrates the inner plug 17. It has been. The upper end of the activator transmitting member 20 protrudes above the liquid surface of the fragrance cleaning agent L in the activator accommodating portion 11. The outer peripheral surface of the lower end of the activator transmitting member 20 is in contact with the holding carrier 18. On the other hand, a positioning member 19 is provided on the bottom surface of the central portion of the bottom wall 15a so as to be inserted into the water injection hole 4 of the water receiving portion 3 and position the fragrance cleaning agent supply device 10 on the water receiving portion 3. Yes.

  The inside of the active agent transmission member 20 is a communication path 21. The upper end of the communication path 21 opens to the internal space of the activator accommodating portion 11 above the liquid surface of the fragrance cleaning agent L, and the lower end of the communication path 21 is supported through a central opening provided in the bottom wall 15a. It communicates with the outside of the section 15.

  In the fragrance cleaning agent supply container 10 configured as described above, when hand-washing water is supplied to the water receiver 3, the water passes through the water inlet 16b of the peripheral wall 15b and further passes through the water outlet 16c of the support piece 25. It passes in order and is transmitted to the holding carrier 18. On the other hand, the holding carrier 18 is impregnated with the aromatic cleaning agent L, and the impregnated aromatic cleaning agent L is mixed with water. Then, the fragrance cleaning agent L is sequentially supplied to the holding carrier 18 from the activator accommodating portion 11 via the activator transmitting member 20. The water passing through the holding carrier is discharged through the opening 16a of the bottom wall 15a of the support portion 15 and flows to the water injection hole 4 of the water storage tank.

Here, the support portion 15 is made of a resin such as polypropylene, polyethylene, nylon (registered trademark), polyethylene terephthalate, polystyrene, or polycarbonate containing TKP-101 (silica-adsorbed TiO ₂ ) or photocatalytic titanium apatite as a base resin (base). It is formed with a resin molded product.

TKP-101 (silica-adsorbed TiO ₂ ) or photocatalytic titanium apatite is added to the resin. When TKP-101 is used, the content is 0.0001 to 10% with respect to the total amount of the resin composition. More preferably, the content is 0.01 to 0.1%.
On the other hand, when photocatalytic titanium apatite is employed, the content is preferably 0.1 to 1.0% by mass of photocatalytic titanium apatite with respect to the total amount of the resin composition.

  Therefore, according to this embodiment, since the fragrance supply device 10 including the support member 15 subjected to the treatment of TKP-101 or photocatalytic titanium apatite is disposed in the toilet, the conventional deodorizing effect In addition, the deodorizing effect of these photocatalysts can be further enhanced, and in particular, by adopting TKP-101 as the photocatalyst, it is possible to effectively deodorize the ammonia odor which is the main cause of bad odor. . Furthermore, since a photocatalyst treatment is performed on a resin molded product that is easy to process and has a low manufacturing cost, the deodorizing effect can be enhanced at a low cost.

  Moreover, although the active agent accommodating part 11 is replaced | exchanged regularly for refilling, the support part 15 is used as it is for a long period of time as it is. Here, according to the present embodiment, since TKP-101 or photocatalytic titanium apatite is treated on the support portion 15, cleanliness can be maintained even in a toilet in which miscellaneous bacteria easily propagate.

  In addition, through experiments described below, the inventors have found that a sufficient deodorizing effect can be obtained without irradiating light onto a resin molded product treated with a photocatalyst. Therefore, the toilet is often turned off when not in use, but by placing a resin molded product that has been treated with TKP-101 or photocatalytic titanium apatite in the toilet, deodorization can be achieved without light irradiation.

  Examples of the aromatic cleaning agent L include surfactants and thickeners, flavoring agents, activators (alcohol, polyethylene glycol, dipropylene glycol, 3-methoxy-3-methylbutanol, concentrated glycerin), coloring agents, and the like. In addition, ingredients such as washing, antifouling, bleaching, water repellency, oil repellency, deodorization, sterilization, antifungal, sterilization, repellent, insect repellent, insecticidal and the like are blended. The surfactant typically includes at least one of an anionic surfactant and a nonionic surfactant, but is not limited to these as long as practicable.

  More specifically, as shown in Table 1, the aromatic cleaning agent L is a blended fragrance as a flavoring agent, a polyoxyethylene alkyl ether as a nonionic surfactant, and a polyoxyethylene alkyl ether sulfate as an anionic surfactant. Salt, 3-methyl-3-methoxybutanol as solvent, hydroxypropylmethylcellulose as thickener, silver compound as antibacterial deodorant, fluorinated polyoxyethylene ether as fluorine surfactant, organic nitrogen sulfur halogen as preservative It is preferable that an appropriate amount of a compound and ion-exchanged water be added to the composition, but the surfactant to be used can be appropriately changed depending on the solubility of other components.

Example 1
Here, in order to confirm the deodorizing effect with respect to the present invention, the deodorizing effect was tested using a resin molded product (container) formed by adding TKP-101 (silica-adsorbed TiO ₂ ) as a photocatalyst to polypropylene. It was.

In this experiment, a polypropylene container (6 g) containing 0.1% of TKP-101 was impregnated with 100 μL of 0.5% aqueous ammonia solution and placed in a 4 L capacity desiccator under a fluorescent lamp. The ammonia concentration over time was measured, and the deodorization magnification was calculated from the rate of decrease. Then, after the experiment under the fluorescent lamp, the same test was performed by covering the entire desiccator and blocking light. The experimental results are shown in Table 2.
The light was shielded by covering the entire desiccator, and the deodorizing magnification was calculated at a ratio of 1 as a reference product (in the case of polypropylene only).

  In Table 2, it turns out that what mixed TKP-101 has shown the high deodorizing effect compared only with polypropylene compared with the case of only polypropylene, regardless of the presence or absence of light.

  Therefore, it was confirmed from this experimental result that the deodorizing effect can be improved by blending TKP-101. Further, it was found that this deodorizing effect can be obtained almost equivalently to the light-irradiated state even when the light is blocked.

(Example 2)
Furthermore, regarding this invention, in order to confirm the deodorizing effect at the time of employ | adopting a photocatalyst titanium apatite as a photocatalyst, the experiment of another deodorizing effect was conducted.

  In this experiment, a container formed by dissolving 10 g of polypropylene and adding 0.1 g and 0.5 g of photocatalytic titanium apatite together with a filter paper impregnated with 150 μL of a 0.5% aqueous ammonia solution, Installed in a 4 L desiccator, the deodorization magnification was calculated from the decrease rate of the ammonia concentration in the same manner as in Example 1. The results are shown in Table 3.

  Table 3 shows that any container formed by adding 0.1 g and 0.5 g of photocatalytic titanium apatite, regardless of the presence of light, has a higher deodorization ratio than the case of polypropylene alone. Has been.

  Therefore, from this experimental result, it was confirmed that the deodorizing effect could be improved by blending the photocatalytic titanium apatite as in the experiment of Example 1.

  The description of the specific embodiments is finished above, but the aspect of the present invention is not limited to these embodiments, and modifications, improvements, and the like can be made as appropriate. For example, in the present embodiment, the fragrance supplying device placed on the upper surface of the toilet water storage tank has been described as an example. However, the present invention is not limited to this, and any device may be used as long as it is disposed in the toilet. The present invention can also be applied to a supply device, a deodorant supply device, an insecticide supply device, a repellent supply device, an insect repellent supply device, or an aromatic cleaning agent supply device attached around the toilet bowl. In the present embodiment, the support part of the fragrance cleaning agent supply container is exemplified as the resin molded product. However, the present invention is not limited to this. It can be adopted for a part or the whole of the container.

  Furthermore, in the present embodiment, it is exemplified that a photocatalyst is added to a resin and kneaded and injection molded to form a resin molded product. However, the present invention is not limited to this. Various methods such as attaching or applying a photocatalyst to the product can be employed.

It is explanatory drawing which shows the aromatic cleaning agent container mounted in the flush toilet based on this invention. It is principal part sectional drawing of the fragrance cleaning agent container shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Flush toilet 10 Fragrance cleaner supply apparatus 11 Activator storage part 15 Support part L Fragrance cleaner

Claims (1)

By the silica adsorption TiO ₂ or photocatalytic titanium apatite photocatalyst arranging the resin molded article by injection molding kneaded into the resin in the toilet, light is possible deodorant even where not irradiated, the resin molded article, aromatic A deodorizing method for a toilet, comprising a support portion for supporting an activator containing portion for refilling in an agent supply device or an aromatic cleaning agent supply device .

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