JP2005052275A - Indoor clotheshorse - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an indoor clotheshorse which enables the removal of harmful chemical substances and smells from the human bodies, pet animals, washing and the like in a room. <P>SOLUTION: A photocatalyst layer is formed on the surface of the indoor clotheshorse to enable the efficient removal of the harmful substances and malodorous substances in indoor air while preventing the adhesion thereof to clothing being dried. The photocatalyst layer also can keep the surface of the clotheshorse itself clean. An adsorbing material for the adsorption of the harmful substances, malodorous substances and the like is used simultaneously with the photocatalyst and the substances can be adsorbed efficiently to be decomposed and removed by the photocatalyst. The decomposition of the substances adsorbed by the photocatalyst also enables the restoration of the adsorbing performance, thereby accomplishing the adsorption semipermanently. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to indoor clothes drying in consideration of an indoor environment that can decompose and remove harmful organic compounds that cause causative substances such as unpleasant odors and sick house syndrome in the room and has functions such as antibacterial and antifouling.

  Photocatalysts are known to generate redox action upon irradiation with light, and are used in various fields. For example, the strong oxidizing power can be used to decompose bacteria and suppress their growth, and to decompose organic substances such as malodorous substances, dirt substances and harmful substances. In addition, due to its reducing action, the surface carrying the photocatalyst can be made super hydrophilic, and the wettability to water can be made extremely high so that the dirt adhering to the surface can be easily washed away with water. it can.

  Due to recent advances in building technology, the indoor environment is becoming increasingly sealed. At the same time, sick house syndrome and chemical substance allergies caused by trace amounts of organic compounds used in building materials have become problems. In addition, odors that directly feel uncomfortable are easily trapped in the room due to the sealability of the building. For example, body odor and pet odor are problematic.

  To eliminate these chemical substances and off-flavors, fundamental solutions such as using building materials that do not use chemical substances, installation of deodorizing materials and ventilation equipment, and introduction of air purifiers, etc. It is common to deal with substances and odors released in this way. (For example, Patent Documents 1 to 3)

  On the other hand, with the spread of high-rise condominiums and the deterioration of the outdoor environment, opportunities to hang laundry in the room are increasing, and in recent years, indoor clothes drying has become widespread in ordinary households. Many of these clothes drying products use antibacterial materials as a function added value.

JP 2002-20164 A JP 2001-336227 A JP 2001-314760 A

  However, building materials that do not use harmful organic compounds are very effective for new construction or renovation, but are not practical as a method for improving the indoor environment of existing buildings. In addition, the introduction of ventilation equipment and air purifiers is effective, but it is expensive and running costs such as electricity costs and consumables are high.

  In addition, the laundry dried in these indoor environments naturally absorbs bad odors and chemical substances in the air and is not comfortable for those who wear them. In addition, the original laundry, which has been dried, contains a large amount of moisture, easily adsorbs the above-mentioned substances, and there are concerns about the occurrence of mold and bacterial growth, as well as the raw dry smell of the laundry itself. There is a problem.

  Therefore, the present invention has been made in view of the above problems, and is an indoor clothes dryer that can remove harmful indoor chemical substances and human, pet, laundry, and other odors, and the clothes dryer itself. It is intended to provide indoor clothes drying that can keep mold and bacteria from growing and keep them clean.

  In order to solve the above-mentioned problems, the present inventor has intensively studied, and by forming a photocatalyst layer on the surface of the clothesline for indoor use, it is possible to efficiently remove harmful substances and malodorous substances in the indoor air, Knowing that these substances can be prevented from adhering to clothes that are being dried, and that the surface of the indoor clothes drying itself can be kept clean, and providing an indoor clothes drying layer provided with a photocatalyst-containing layer on the surface It is something to be done.

  In order to achieve the above object, the present invention is configured as follows. That is, the photocatalyst containing layer is provided on the surface.

  By forming a layer containing a photocatalyst on the surface of the indoor clothesline, the oxidative decomposition function can be expressed by the ultraviolet ray hitting the clothesline surface. Typical photocatalysts include titanium dioxide and zinc oxide. Among these, titanium dioxide is chemically stable and is suitably used as a photocatalyst. Titanium dioxide may be a rutile type, but an anatase type is preferred because of its high activity. When this titanium dioxide is irradiated with ultraviolet light having a wavelength range of 300 to 400 nm, it is activated and develops strong oxidizing power, and organic substances such as harmful substances, malodorous substances, bacteria, mold, and dirt near the surface Decomposed and harmful substances and odorous substances are removed from the room.

  Moreover, since the photocatalyst layer is formed on the surface of the clothesline, the effect of decomposing and removing near the clothesline is high, and adhesion of harmful substances to the laundry being dried on the clothesline can be suitably prevented. On the other hand, odors and bacteria caused by the laundry, for example, fresh odors, can be efficiently removed, and bacterial growth can be prevented. In addition, the surface can be kept clean and clean by decomposing dirt such as fingerprints on the clothesline.

  The photocatalyst-containing layer is a coating film containing a photocatalyst.

  If a photocatalyst layer is formed by applying a paint containing a photocatalyst to form a coating film on the clothes drying surface, the photocatalyst layer can be provided very simply. In the method by painting, since the shape of the object to be painted is not so limited, it can be applied to clothes drying in various shapes. Since the photocatalyst has the property of decomposing organic matter, when coating on the organic matter such as resin coating, it is better to apply an inorganic paint that is difficult to oxidatively decompose as an undercoat. The coating material of etc. is used suitably.

  Moreover, it is good to mix | blend the adsorption material which adsorb | sucks a harmful substance, a malodorous substance, etc. with a photocatalyst coating material. Hazardous substances and offensive odor substances are dispersed in the air, and in order to decompose these substances, it is necessary to capture them on the surface. If substances that adsorb these substances are blended, chemical substances and malodorous substances can be captured, and the captured substances can be decomposed by the decomposition performance of the photocatalyst, so that the decomposition and removal efficiency can be improved. . Normally, once adsorbed material is adsorbed, it is not adsorbed any more, but the photocatalyst decomposes the adsorbed material, so that the adsorption performance is restored and adsorption can be performed semipermanently.

  The adsorbing material to be blended includes, for example, physical adsorption or chemical adsorption material, and is not particularly limited. Some physical adsorption materials have fine pores such as activated carbon and zeolite. In addition, the chemisorbing substance has a chemical functional group on the surface, and captures them by chemically bonding with substances in the air.

  The method of painting is not particularly limited, and dip coating, air spray coating, airless spray coating, flow coating, brush coating, etc. can be used, but in consideration of complex shapes, air spray or brush coating is used. It is good to use.

  The photocatalyst-containing layer is a resin coating layer coated with a resin containing a photocatalyst.

  The pipe part of the clothesline can enhance rust prevention and design by applying a resin coating to the metal pipe. Such a resin-coated pipe is formed by moving a pipe through a mold at a constant speed and coating the pipe surface while extruding resin melted around the pipe at a constant speed. At this time, the photocatalyst containing layer can be provided on the surface of the pipe by blending the photocatalyst with the resin to be coated.

  Moreover, the resin coating layer to be extruded may be a plurality of two or more layers, and it is sufficient that a photocatalyst is blended in the outermost surface layer. If it does in this way, the quantity of the photocatalyst to mix | blend can be reduced.

  The photocatalyst is characterized by comprising a porous inorganic substance attached to the surface of the photocatalyst fine particles.

  Since the coating layer is a resin, there is a possibility that the resin of the coating layer is decomposed not a little due to the decomposability of the photocatalyst. Therefore, a protective layer that is not decomposed by photocatalytic activity is preferably formed on the surface of the photocatalyst so that the resin and the photocatalyst are not in direct contact with each other. Naturally, if the photocatalyst is completely covered, the photocatalytic decomposition activity does not appear. Therefore, the surface of the photocatalyst should be exposed to the extent that the photocatalyst and the resin of the resin coating layer do not touch each other. For example, the surface of the photocatalyst may be covered with a mesh of an inorganic substance that is not decomposed by the photocatalyst.

  As the substance for the protective layer on the surface of the photocatalyst, for example, apatite or silica porous material can be used. Apatite has an excellent ability to adsorb bacteria and viruses, and has the ability to adsorb malodorous substances and harmful organic compounds. By using apatite as a protective film, the synergistic action with the photocatalyst significantly improves the cleaning and deodorizing effects. The protective layer of apatite may be a composite layer of apatite with another adsorbing material or ceramics.

  The photocatalyst is characterized by being a visible light responsive type that can be excited even in the visible light region.

  When titanium oxide is used as a photocatalyst, the titanium oxide exhibits photocatalytic performance only with respect to ultraviolet rays. Indoor light such as fluorescent lamps also contains a very small amount of ultraviolet light and exhibits photocatalytic activity, but its performance is not great. By making the photocatalyst used in the present invention a visible light responsive type, the ability to oxidatively decompose can be satisfactorily developed indoors, and harmful substances and malodorous substances can be decomposed. The visible light responsive titanium oxide photocatalyst is one in which electrons are injected into the titanium oxide from the excited state of the adsorbed dye generated by adsorbing the dye on the titanium oxide and absorbing the visible light, Cr, V, Mn, There are types in which metal ions such as Fe and Ni are chemically implanted, types in which oxygen defects are introduced by plasma irradiation, and types in which different types of ions are introduced.

  According to the present invention, by forming a photocatalyst layer on the surface of a clothesline for indoor use, it is possible to efficiently remove harmful substances and malodorous substances in indoor air, and these substances adhere to clothes being dried. This can be prevented, and the surface of the indoor clothes drying itself can be kept clean.

  At this time, a photocatalyst layer can be provided very simply by making a photocatalyst layer into a coat using a photocatalyst content paint. In the method by painting, since the shape of the object to be painted is not so limited, it can be applied to clothes drying in various shapes. In addition, by incorporating an adsorbing substance that adsorbs harmful substances and malodorous substances into the photocatalyst paint, the substance can be adsorbed efficiently and decomposed and removed by the photocatalyst, and the adsorbed substance is decomposed by the photocatalyst. Therefore, the adsorption performance is recovered and adsorption can be performed semipermanently.

  Moreover, by making a photocatalyst layer into a resin coating layer containing a photocatalyst, the photocatalyst can be carried on the surface, and the design and the touch can be improved by the resin coating. Moreover, the resin coating layer to be extruded may be a plurality of two or more layers, and it is sufficient that a photocatalyst is blended in the outermost surface layer. If it does in this way, the quantity of the photocatalyst to mix | blend can be reduced. At this time, by forming a protective layer of apatite on the surface of the photocatalyst, the resin and the photocatalyst can be prevented from directly contacting each other, the resin layer can be prevented from being decomposed by the photocatalyst, and the apatite adsorption performance can be obtained. Efficiently adsorbs and decomposes harmful substances and malodorous substances.

  Embodiments according to the present invention will be specifically described below with reference to the drawings. FIG. 1 shows an example of indoor clothes drying. By providing a photocatalyst-containing layer on the surface of such an indoor clothes-drying 1, it is possible to add the ability to decompose chemical substances that cause sick house syndrome, materials that cause odors, dirt components, and the like.

  FIG. 2 is a cross-sectional view of the vicinity of the surface showing one embodiment of a member constituting the indoor clothes drying of the present invention, in which a photocatalyst-containing coating film is formed by applying a photocatalyst paint to form a photocatalyst-containing layer. . An undercoat layer 21 is formed on the clothes drying member 11 so that the clothes drying member is not decomposed by the activity of the photocatalyst, and a photocatalyst-containing coating film 22 is formed on the undercoat layer.

  The undercoat layer is preferably coated with an inorganic paint that is not easily oxidized and decomposed, and a silicon paint or the like is preferably used. In addition, the photocatalyst-containing coating is not particularly limited, but a silicon or other inorganic paint blended with titanium oxide, a cement paint blended with titanium oxide, or a silica film by a sol-gel reaction. It is recommended to use a titanium oxide blend or amorphous titanium oxide film. The adsorbent such as activated carbon or zeolite and adsorbents such as chemical adsorbents are blended into the paint, etc. Acquisition may be facilitated. Moreover, it is good also as a coating-film structure which makes the surface of a coating film porous.

  FIG. 3 is a cross-sectional view of the vicinity of the surface showing another embodiment of the member constituting the indoor clothes drying of the present invention, and a resin layer containing a photocatalyst is formed by extrusion molding mainly on the pipe part constituting the clothes drying. Is. The resin layer 23 in which the photocatalyst fine particles 30 are dispersed is formed on the clothes drying member 11, and a part of the photocatalyst fine particles are exposed from the surface of the resin layer 23. Is expressed. The resin material used for the resin layer is not particularly limited, but olefin resin, polyvinyl chloride, ABS resin, polyamide, acrylic resin, and the like are preferably used.

  As the photocatalyst fine particles, those in which the surface of anatase-type titanium oxide covers apatite in a mesh shape may be used. By this apatite, the photocatalyst fine particles and the resin layer are not in direct contact, and the resin coating layer can be prevented from being decomposed by the oxidative decomposition activity of the photocatalyst.

It is the schematic which shows one Embodiment of this invention product. It is one Embodiment of this invention, and is the schematic which expanded the cross section of the surface vicinity. It is one Embodiment of this invention, and is the schematic which expanded the cross section of the surface vicinity.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Indoor clothes drying 21 Undercoat coating film 22 Photocatalyst containing coating film 23 Photocatalyst containing resin layer 30 Photocatalyst fine particle

Claims (5)

Indoor clothes drying characterized by having a photocatalyst containing layer on the surface. The indoor clothes drying according to claim 1, wherein the photocatalyst-containing layer is a coating film containing a photocatalyst. The indoor clothesline according to claim 1, wherein the photocatalyst-containing layer is a resin coating layer containing a photocatalyst. The indoor clothes drying according to any one of claims 1 to 3, wherein the photocatalyst is formed by attaching a porous inorganic substance to the surface of the photocatalyst fine particles. The indoor clothes drying according to any one of claims 1 to 4, wherein the photocatalyst is a visible light responsive type that can be excited even in a visible light region.

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