TW546438B - A self-cleaning screen and production method thereof - Google Patents

Abstract

This invention provides a self-cleaning screen composed by a net base material, which contains photo catalysis active photocatalysis (TiO2) or is applied over a layer of photo catalysis active photocatalysis (TiO2), as well as a production method thereof.

Description

546438 Month Amendment Case No. 911357 Prevention V. Description of the Invention (2) The first method of manufacturing a gauze with self-cleaning ability, which was described first. Reticulated substrate = woven into-reticulated substrate. Then, apply the ::: coating or impregnation method to a layer with a photocatalyst: base material h. In addition, the photoresist can be directly added to the resin used in the net or added or manufactured. Reticulated substrate ::; The step of fabricating titanium dioxide is incorporated into the setting: the chemically active titanium dioxide is excited by light of a specific wavelength = it will have a catalytic effect, and the oxygen and water molecules around it will be excited = · 0Η and · 〇2 _Free radicals, these oxidizing powers are free: they have many organic substances and some inorganic substances. The surface of the present invention has-titanium dioxide with photocatalytic activity or two: eight solutions U 丨 ΐ Adhesion ☆ The dust or impurities on the gauze net are decomposed to achieve the purpose of cleaning. [Embodiment]: m: The gauze net provided in the example only includes a net-like substrate with a ^ φ ^ titanium dioxide coating active The oxidized dioxide covering the net-shaped substrate ((a kind of e Λ ~ "by light; coating) can perform photocatalytic reaction. The "photocatalytic reaction" is literally catalyzed by the action of iridium and glycan, and it is catalyzed by the use of light to provide energy. V The surrounding oxygen or water molecules are converted into highly active

546438

Free radicals such as · 0Η and · Of, which decompose 3 organic and inorganic substances that are harmful to the human body or the environment or cause pollution. Generally speaking, sunlight has a strong energy in the wavelength range of 300-80nm, and is less susceptible to the effects of the global warming and atmospheric pollution. Therefore, the photochemical energy provided by sunlight can be used as a source of exciting photocatalyst. To become a photocatalyst material, the compound must first have the characteristics of a semiconductor and its energy band (vaIence band and conductive band) must be appropriate. Thus, under the irradiation of light, its electrons can be excited to transition from the valence band to the conductive band, and the generated potential is sufficient to provide the electrolytic production of water & and%. For the titanium dioxide used in the present invention, the energy distance required to excite the titanium dioxide is 3.2 eV, and the wavelength corresponding to the required light energy is equivalent to 38nm. The reason for using titanium dioxide as a photocatalyst material in the present invention is that titanium dioxide has strong redox capacity, high chemical stability, and non-toxic properties. ^ When ultraviolet light with a wavelength less than 400 nm is irradiated on titanium dioxide, the electrons of titanium dioxide in the valence band are excited by the energy of ultraviolet rays and jump to the conductive band. At the same time, positively charged holes are generated in the valence band, and A group of electron-hole pairs is formed, and the reaction time is only a few microseconds ("μ."). The photocatalytic reaction on the surface of di-emulsified titanium can be divided into the following steps: Oxygen and water molecules are adsorbed on the surface of titanium dioxide; 2 · Titanium dioxide generates electrons and holes after being irradiated with ultraviolet light; 3 · Electrons and holes are captured and exist on the titanium dioxide surface, respectively;

V. Description of the invention (4) :: and water molecules to form hydroxide radicals; 6. Oxidation reaction between the product group and the reactant; according to one of the invention / Λ titanium surface is detached. Adding a photocatalytically active m: gauze mesh substrate itself adds (A :: t) v crystals for dual use, titanium dioxide 'which preferably contains a mixture of ^ (Rut i le) 纟 Γ / 1 (Bing Qin said that the ratio of anatase to rutile stone is 80 is preferably a sharp ore: Rutile is preferably a nano-size 7 superparticles, plus to increase the electron- Electricity = The efficiency of the catalytic reaction has been greatly improved. Also available from special polymer substrates are metal materials, pottery materials, or terephthalic acid (m) dica), polypropylene (PP) or polyf 2 A method n for manufacturing the aforementioned gauze, weaving a linear metal or a rhenium polymer into a mesh substrate, or using a ceramic material-a mesh substrate. If the net-like substrate is obtained after the spinning step, it should be shaped by impregnation with a resin. Then, a coating containing appropriate titanium dioxide is applied to the web by brushing, spraying or impregnation: the substrate can also be directly added with titanium dioxide to shape the mesh base :: resin towel 'The step of directly coating the dioxin coating is combined with the setting step 546438. 5. Description of the invention (5) The present invention also provides a titanium dioxide-free dioxin-free molecular encapsulation due to the addition of dioxygen by the titanium dioxide to the retarded surface. The hair curtain and the folding layer have the fineness of inorganic matter in the air f. Although it was invented, when the titanium is attached, the interface cells are usually punched when the titanium is sub-coated (Π! The titanium in the coating contains at least The photocatalysis of stack-type yarns is therefore passed through the yarn fungus. As any method of the present invention can be applied for each application method, the substrate-like substrate is based on the network solution, because the end of the molecule ice 11) The other screen or activity that is connected to the silicon supply is not only when it has a net, it also has a more patented model that has been used in this technology, and the composition is based on a net-based atomic net suitable for automotive yarn energy. break down There are self-decomposing, self-cleaning, performing artists, and the boundary between the action and repair is mostly in the manufacture of the coating in accordance with the present invention, the oxide should be slow, or the material should be in contact with the surface of the curtain, etc. Examples of deodorization in the gas show that titanium dioxide is used when the material is a net-like substrate without being modified. The organic polymer material, an example of 矸, can be divided in the shape of the buffer interface. Adding a titanium bonding interface can be added to the mesh base. It is better to prepare titanium oxide and screen door, and most of the dust or stink odor or sterilization, etc., then it is accurate. It is bonded to the titanium dioxide surface and the two molecules to avoid the interface molecules, and the buffer bonds. Or the scroll type destroys the air function due to its surface organic matter and quality function. It is not used to limit the spirit of the Ming and the protection of the painting. The painted part can still be included in the scope.

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Claims (1)

546438 6. Scope of patent application 1. A gauze with self-cleaning ability, comprising: a mesh substrate; and a photocatalytically active titanium dioxide (Ti〇2) coating provided on the mesh substrate. 2. The gauze with self-cleaning ability according to item 1 of the patent scope, wherein the titanium dioxide coating with photocatalytic properties contains anatase crystals or a mixture of anatase and rutile Crystalline titanium dioxide particles. 3. The self-cleaning gauze according to item 2 of the scope of patent application, wherein the titanium oxide particles are a mixed crystal of anatase: rutile molecular ratio of 80:20. mouth 5, according to the scope of patent application! The mesh-like substrate with self-cleaning ability is made of polymer material. The polymer material is: Zhongkelong, polyvinyl chloride (PVC), and polyethylene terephthalate. ) And polybutylene terephthalate ⑽): C6. According to item i of the patent application, it has a self-titanium dioxide coating containing-buffering interface molecule, in which the one end is bonded with dioxin. , Use the buffer interface molecule i to punch the other end of the interface molecule and the dioxide IHH Page 10 546438 VI. Scope of patent application To avoid this: I: I other components or combination of the mesh substrate The emulsified titanium is in direct contact with the mesh substrate. A net of self-cleaning ability is stated in item 6 of the patent scope, wherein the * face knife contains at least one Shi Xi atom for bonding with titanium dioxide. A method for manufacturing a gauze net includes the following steps: 8. A step with self-cleaning ability: a dagger, a plurality of threads are woven into a net-like substrate; and the net-like substrate is impregnated with a resin = f to shape the net. A substrate; and coating a layer of titanium dioxide with photocatalytic properties on the mesh substrate. 9. The method for manufacturing a gauze with self-cleaning ability according to item 8 of the scope of the patent application, wherein the coating step is achieved by spraying or brushing. 10. The method of manufacturing a self-cleaning gauze according to item 8 of the patent application ', wherein the coating step is achieved by impregnation. 11. The method for manufacturing a self-cleaning gauze according to item 8 of the application, wherein the titanium dioxide coating having photocatalytic properties includes anatase crystal or anatase and rutile. Mixed crystallized "titanium dioxide particles. 1 2. Manufacture of self-cleaning gauze according to item 11 of the scope of patent application Page 11 546438 VI. Patent application method, wherein the titanium dioxide particles are a mixed crystal of anatase ·· rutile molecular ratio of 80:20. 1 3. The method for manufacturing a self-cleaning gauze according to item 11 of the scope of patent application, wherein the titanium dioxide particles are nano-sized. 14. The method of manufacturing a self-cleaning gauze according to item 8 of the scope of the patent application, wherein the thread is formed of a polymer material, and the polymer material is made of nylon, polygas The group consisting of ethylene (P VC), polyethylene terephthalate (ρ ε τ), extraction, propylene (PP), and polybutene terephthalate (PBT) was selected for extraction. ^ 15. A method for producing a self-cleaning gauze according to item 8 of the scope of the patent application, wherein the titanium dioxide coating includes a buffer interface molecule, one end of the punching interface molecule is bonded with titanium dioxide, and the buffer interface is eight One end is combined with other components in the titanium dioxide coating or the mesh substrate, thereby preventing the titanium dioxide from directly contacting the mesh substrate. Manufacture of soil gauze mesh One silicon atom is used for two 16. The self-method according to item 15 of the scope of patent application, wherein the buffer interface molecule includes at least a titanium oxide bond. It contains the following steps Page 12 1 7. Method for manufacturing a self-cleaning gauze step: 546438 VI. Patent application scope Weaving a plurality of threads into a net-like substrate; and impregnating the net-like substrate with a tree month This shapes the mesh substrate, wherein the resin comprises titanium dioxide having actinic properties. 18. Yarn with self-cleaning ability according to item 17 of the patent: Method 'wherein the titanium dioxide with photocatalytic properties is anatase ^ (natase) or anatase and rutile (Rut ue) said human titanium dioxide particles. According to the method of the patent application No. 8 and the method of self-propagation, the titanium dioxide particles are made of 80:20 mixed crystals of the gauze of Ruiqin H. The ratio of the number of gold, masonry and zizi is 20, according to Method, wherein the titanium dioxide particles are nanometers; manufacturing of a power mesh 21, according to the method of patent application No. 丨 7, the method has a 4 * method, wherein the thread is formed by a polymer material shape = sacrifice yarn The net is made of nylon, polyvinyl chloride (PVC), and polyhexanox-m '. The polymer material is gaseous olefin (PP) and polybutene paraben acid (ρβ adipate (PET). The selected group is 22, and has a self-method according to item 7 of the scope of the patent application, wherein the titanium dioxide coating contains a fabricating interface molecule of a gauze mesh, which uses the cushioning Page 13 546438 VI. Patent application scope One end of the interface molecule is bonded with titanium dioxide, and the other end of the buffer interface molecule is combined with other components in the titanium dioxide coating or the mesh substrate, thereby avoiding direct contact between titanium dioxide and The mesh substrate is in contact. 2 3. The method for manufacturing a self-cleaning gauze according to item 22 of the scope of the patent application, wherein the buffer interface molecule contains at least one stone atom for bonding with titanium dioxide. 24. A gauze with self-cleaning ability, comprising: a mesh substrate 'wherein the mesh substrate comprises titanium dioxide (Ti02) particles having photocatalytic activity. _ The gauze of force, which contains a sharp iridium) 25. According to the scope of the patent application No. 24, the self-cleaning titanium dioxide particles having photocatalytic properties are Anatase crystals or anatase and rutile titanium dioxide particles. 2 6. Yishen patent Self-cleaning gauze in the scope of item 25, The particle system of the dioxide 'is anatase: rutile molecular ratio of 80 ′, and the crystalline phase is neutral. · ,,,: 20 mix 27. According to the self-cleaning gauze of item 24 of the scope of application for patent, the titanium dioxide particles are nano-sized. among them 546438 VI. Application patent scope 28, according to the scope of application patent scope 24, self-cleaning yarn beans. The mesh is made of-polymer material, which is made of nylon, polyvinyl chloride (PVC) , Polyethylene terephthalate (ρΕτ), polypropylene (PP), and polybutylene terephthalate (PβΤ). 29: A gauze with self-cleaning ability in the scope of application for patent item 24, wherein the titanium dioxide coating includes a buffer interface molecule, with the buffer interface as one end of the child and titanium dioxide, and the other end of the buffer interface molecule In combination with other components in the titanium dioxide coating or the mesh substrate, thereby preventing the titanium dioxide from directly contacting the mesh substrate. 30. According to the self-cleaning gauze of item 29 in the scope of the patent application, the buffer interface molecule in the bean contains at least _ zongzi for bonding with dioxin. 31. A self-cleaning gauze A method for manufacturing a net, which comprises weaving a thread of titanium oxide particles into a plurality of webs including a net-like substrate having photocatalytic properties. 32. According to the manufacturing method of self-cleaning gauze according to item 31 of the scope of patent application, "wherein the titanium dioxide particles with photocatalytic properties are crystals containing anatase Unatase) or anatase and rutile (RutUe) Mixed crystalline titanium dioxide particles. Page 15 546438} Manufacture of gauzes of ability rutile molecular ratio 3 3. The method of self-cleaning according to item 32 of the scope of patent application. The titanium dioxide particles are a mixed crystal of 80:20 anatase.戸, =, according to the method of claim 3 in the scope of the patent application, wherein the titanium dioxide particles are manufactured by nano = force of the gauze net 35, according to the method of claim 31 in the scope of the patent application, where the line is made by A polymer material shape: =: made of nylon, polyethylene gas (PVC), poly-paraben dimethyl = the material system: lose) and polybutylene terephthalic acid The method for manufacturing a gauze with self-cleaning ability according to item 31, // The middle-side titanium dioxide coating contains a buffer interface molecule, the J punch; the I surface knife, 缟 and titanium dioxide are bonded, and the buffer interface is divided into ρ- The other components in the terminal f titanium dioxide coating or the mesh substrate are combined to prevent the titanium dioxide from directly contacting the mesh substrate. 37: The method for making a self-cleaning gauze according to item 36 of the patent application, wherein the buffer interface molecule contains at least one silicon atom for fish-titanium oxide bonding. τ 〇 1 Page 16 546438 Case number 91135768 V. Description of the invention (1) [Technical field to which the invention belongs] The present invention relates to a gauze. [Prior art] A gauze is standing on the doorway at t f. The gauze has a plurality of meshes. The moon dagger 1. The maggots let the air roll circulate and properly control the undesired foreign objects such as insects in the mesh. However, the gauze has been used for some time: moxibustion, dust or dirty impurities are easy to accumulate around its mesh, and it must be cleaned once every time, which is very troublesome. [Summary of the Invention] Therefore, the object of the present invention is to provide a self-cleaning process capable of self-cleaning during use. No additional cleaning hand is required. A gauze according to an embodiment of the present invention mainly includes a mesh and a layer The photocatalytic activity of a titanium dioxide coating on the mesh-like substrate. The photocatalytic activity of the di-emulsified titanium coating makes the gauze self-cleaning. According to another embodiment of the present invention, a gauze substrate contains The photocatalytically active titanium dioxide allows the gauze to have self-cleaning properties. The mesh substrate can be made of metal, ceramic or polymer material. The polymer material used as the mesh substrate of the present invention includes nylon, olefin ( PVC), polypropylene (PP), and polyethylene terephthalate have their advantages over a period of time, so gauze, continued. The ability of the substrate to material. There is power. to make. Polymerizable Gas B (PET) • The photocatalytically active titanium dioxide coating can include anatase (Titanium dioxide) crystals or a mixture of anatase and rutile (Rut 1 1 e) Crystalline titanium dioxide particles, and preferably nano particles. The mixed crystal of anatase and rutile has a higher mixing ratio than the titanate: rutile molecular ratio of 80:20. Meter size Jiaweirui H: \ ⑻589-TW.ptc Page 4