M415752 五、新型說明: 【新型所屬之技術領域】 本創作係屬於一種濾網結構,特別是指一種增 大反應面積、提升光觸媒空氣濾淨機除臭殺菌效果 之光觸媒濾網。 【先前技術】 人們9 0 %的時間是在室内工作和生活的,生活 行為之進行大多在大樓内部、地下空間、辦公室、 房舍等室内環境。在人類的生存空間不斷遭受各種 污染威脅的今天,我們失去了從自家門口仰望夜空 星羅棋佈的愜意,都市化生活加劇了空氣污染對人 們之影響,因而產生各種呼吸系統之病症,人群聚 集更讓感冒等疾病易於傳播。故,改善生活周遭環 境之空氣品質’是相當受重視之課題,各式空氣濾 淨器亦見於市面。 打破以往僅以濾網、或活性炭濾網之過濾方 式’光觸媒(Photocatalyst)為新式空氣濾淨機之, 更被譽為“當今世界最理想的殺菌淨化新技術”, 其原理為利用以二氧化鈦(Ti02 )為代表之一類 光催化劑(Lightcatalyst),吸收波長380 nm小於 之光後激發氧化還原反應,在表面形成強氧化性的 氫氧自由基和超氧陰離子自由基,把空氣中游離的 有害物質及微生物分解成無害的二氧化碳和水,達 3 M415752 成空氣壚淨之效果 親水等功能並安全 家環境之改良。 。由於其具有殺菌、除臭、防污、 而持久,故逐漸推展至醫療、居 明參閱第1圖,後& (一),一光魅讲冰’、."、習知光觸媒濾網之示意圖 其僅為單層結構…^有先觸媒’但由於 效率# π & /、工虱接觸面積有限,故其作用 政旱偏低。為了改善此一 知#錨甜法 匱况’凊參閱第2圖之習 網之設計,係為將較厚之2 奈米光觸媒遽 將較厚之—光觸媒濾網12置放於一M415752 V. New description: [New technical field] This creation belongs to a filter structure, especially a photocatalyst filter that increases the reaction area and enhances the deodorizing and sterilizing effect of the photocatalyst air filter. [Prior Art] People spend 90% of their time working and living indoors. Most of their life activities are in the interior of the building, underground space, offices, and houses. Today, when human beings continue to suffer from various pollution threats, we have lost the arrogance of looking at the night sky from our doorstep. Urbanization has intensified the impact of air pollution on people, resulting in various respiratory diseases. Diseases are easy to spread. Therefore, improving the air quality in the surrounding environment is a subject of considerable attention, and various types of air filters are also found in the market. Breaking the previous filter-type or activated carbon filter's photo-catalyst (Photocatalyst) as a new air filter, it is also known as "the most ideal new sterilization and purification technology in the world", the principle is to use titanium dioxide ( Ti02) is a kind of photocatalyst (Lightcatalyst), which absorbs light at a wavelength of 380 nm and emits redox reaction. It forms strong oxidizing hydroxyl radicals and superoxide anion radicals on the surface, and removes harmful substances in the air. And the microorganisms are decomposed into harmless carbon dioxide and water, and the effect of 3 M415752 into a clean air is hydrophilic and the environment of the safe home is improved. . Because it has bactericidal, deodorizing, anti-fouling, and lasting, it is gradually extended to medical treatment, see Ming Figure 1, after & (a), a light charm about ice ',.", custom photocatalyst filter The schematic diagram is only a single-layer structure...^There is a first catalyst', but due to the efficiency # π & /, the contact area of the work is limited, so its role is low. In order to improve this knowledge, #锚甜法匮', see the design of the network in Figure 2, for the thicker 2 nano photocatalyst 遽 put the thicker photocatalyst filter 12 in one
Si:3: ’雖然增加Τ光觸媒之含量,但其照受光 :之範圍有限’置於網袋内更降低光接觸之面積, 、先照射之死角無法發揮光觸媒之效用,故,本 作之光觸媒網架結構,不僅增加光觸媒作用之面 積’更提高其空氣潔淨之效率,避免不必要之浪費。 【新型内容】 本創作之主要目的,旨在提供_種光觸媒網_ 結構,增加光觸媒之作用面積,使殺菌、除臭等空 氣清淨之效果更加提升。 二 為達上述目的,本創作之光觸媒網架結構,係 與一激發光源鄰設於一空氣潔淨機内,該光觸媒網 架結構包括:一載體層,係供以塗佈光觸媒;二網 架層’係為可撓性材質,分設於該載體層之兩侧; 及一固定框架,供以裝設該網架層與該載體層;該 4 M415752 網架層結合該載體層後,形成摺曲之波浪狀結構, 並以固定框架固定之。為了增加接觸之面積,該載 體層係為不銹鋼材質,並為細密網狀結構。為了提 供網架之穩固性,該網架層係為鋁材質,且為蜂巢 網狀結構。且該激發光源係包含波長38〇 nm以下之 光,以激發光觸媒之氧化還原反應。Si:3: 'Although the content of the photocatalyst is increased, the range of the photo-receiving light is limited. 'It is placed in the net bag to reduce the area of the light contact. The dead angle of the first irradiation cannot play the role of the photocatalyst. Therefore, the photocatalyst of this photo is used. The grid structure not only increases the area of photocatalyst action, but also improves the efficiency of air cleaning and avoids unnecessary waste. [New content] The main purpose of this creation is to provide a photocatalyst network _ structure, increase the area of photocatalyst, and enhance the effect of air purification such as sterilization and deodorization. For the above purpose, the photocatalyst grid structure of the present invention is disposed adjacent to an excitation light source in an air cleaning machine. The photocatalyst grid structure comprises: a carrier layer for coating photocatalyst; and a second grid layer' a flexible material, disposed on both sides of the carrier layer; and a fixing frame for mounting the grid layer and the carrier layer; the 4 M415752 grid layer is combined with the carrier layer to form a bend The wavy structure is fixed by a fixed frame. In order to increase the contact area, the carrier layer is made of stainless steel and has a fine mesh structure. In order to provide the stability of the grid, the grid layer is made of aluminum and is a honeycomb network. And the excitation light source comprises light having a wavelength of 38 〇 nm or less to excite the redox reaction of the photocatalyst.
本創作設計之光觸媒網架結構,不僅大幅增加 光觸媒與空氣接觸之面積,並考量光線照射之範 圍,使光觸媒皆能接收到高能量之光,充分發揮空 氣潔淨之功能,使效率更加提升。 【實施方式】 句災貝番查委員能清 以下列說明搭配圖式,敬請參閱 月參閲第3圖及第4圖所示’係為本創作較佳The photocatalytic grid structure designed by this design not only greatly increases the contact area between the photocatalyst and the air, but also considers the range of light irradiation, so that the photocatalyst can receive high-energy light, and fully utilize the function of air purification to improve the efficiency. [Embodiment] The sentence disaster-stricken members of the Bay Fan Chaqing can use the following instructions to match the drawings. Please refer to the figures in Figures 3 and 4 for the month.
實施例之分解示意圓及組合刮面圖。如圖中所示, 該光觸媒網架妹描 。構2係包含一載體層20,該載體層 。:為細密網狀結構,並由不錄鋼材質製造The exploded schematic and combined scraping views of the examples. As shown in the figure, the photocatalyst network is depicted. The structure 2 comprises a carrier layer 20, the carrier layer. : It is a fine mesh structure and is made of non-recorded steel material.
Si::::體層2〇之兩側各有-網_, t ,,係為蜂巢網狀結構,並由可撓性材 買’如鋁材皙所制丄 ^ 將其置;^ 於該載體層2"彎曲,故 =該二網架…間,由該二網架 供叉探力,以維持 风 框架24,為硬暂該载體層2〇之形狀。另有-固定 該網架層22。兮::框,供以裝設該載體層2°與 该載體層20塗佈光觸媒後,與該二 5 M415752 網架層22結合,並摺曲行形成波浪狀結構,架設於 該固定框架24内固定。 明參閱第5圖之本創作較佳實施例之使用狀態 圖。如圖中所不,本創作之光觸媒網架結構2與一 激發光源3相鄰設置於一空氣潔淨機(圖中未顯示) 内,由於該載體層20隨者該網架層22彎折成波浪 狀,該激發光源3所發出之波長38〇nm以下的光能 均勻照射到該載體層20,使該載體層2〇上之光觸 媒發生氧化還原反應,當空氣進人該空氣潔淨機, 並順著5亥空氣潔淨機之導引’穿過該光觸媒網架結 構2時,空氣内之細菌、產生臭味之有機物、塵蟎、 懸浮微粒遇到光觸媒即分解成為二氧化碳、水等無 毋物質,避免因為光照死角而無法發揮光觸媒之效 用。且波浪狀之結構有效增加光觸媒之含量與接觸 面積,讓空氣中之微粒接觸光觸媒之機率大幅提 昇,使空氣清淨之效果更加顯著,將空氣濾淨之效 能發揮至極致。 如上所述,本創作運用設計之巧思,使用簡單 之原理與易完成之技術,使本創作之光觸媒網架結 構不僅能有效接收高能光線以產生反應,避免因光 照死角而纟光觸媒無法啟動’ i增加光觸媒接觸空 氣之面積’使光觸媒發揮功效而m慮淨之效力 更加提升。 唯以上所述者,僅為本創作之較佳實施例而 6 M415752 已,並非用以限定本創作實施之範圍 此技術所作出等效或輕易的變化者, 作之精神與範圍下所作之均等變化與 蓋於本創作之專利範圍内。 故此等熟習 不脫離本創 飾,皆應涵 【圖式簡單說明】 第 1圖 為 習知 光 觸媒 濾 網 之 示 意 圖 ( — )° 第 2圖 為 習知 光 觸媒 濾 網 之 示 意 圖 ( 二 )0 第 3圖 為 本創 作 較佳 實 施 例 之 分 解 示 意 圖。 第 i圖 為 本創 作 較佳 實 施 例 之 組 合 剖 面 圖。 第 5圖 為 本創 作 較佳 實 施 例 之 使 用 狀 態 圖。 M415752 【主要元件符號說明】 【習知】 11 光觸媒濾紙 12 光觸媒濾網 13 網袋 【本案】 2 光觸媒網架結構 20 載體層 22 網架層 24 固定框架 3 激發光源Si::::The two layers on both sides of the body layer have a net _, t , which is a honeycomb network structure, and is made of a flexible material, such as aluminum 皙 ^, which is placed; The carrier layer 2"bends, so = between the two grids... is supported by the two grids to maintain the wind frame 24 in a shape that hardens the carrier layer 2〇. Also - the grid layer 22 is fixed. The 兮:: frame is provided for attaching the carrier layer to the carrier layer 20 and then coating the photocatalyst with the carrier layer 20, and is combined with the two 5 M415752 grid layer 22, and is bent to form a wavy structure, and is mounted on the fixing frame 24 Internal fixation. Referring to Figure 5, the state of use of the preferred embodiment of the present invention is shown. As shown in the figure, the photocatalyst grid structure 2 of the present invention is disposed adjacent to an excitation light source 3 in an air cleaner (not shown), since the carrier layer 20 is bent into the grid layer 22 In a wave shape, light of a wavelength of 38 〇 nm or less emitted by the excitation light source 3 is uniformly irradiated to the carrier layer 20, and a photocatalyst on the carrier layer 2 is subjected to a redox reaction, when air enters the air cleaner, and Guided by the 5 Hai air cleaner, when passing through the photocatalyst grid structure 2, bacteria in the air, organic substances that produce odor, dust mites, and suspended particles are decomposed into non-defective substances such as carbon dioxide and water when exposed to photocatalyst. To avoid the effect of photocatalyst due to the dead angle of light. The wavy structure effectively increases the content of the photocatalyst and the contact area, so that the probability of the particles in the air contacting the photocatalyst is greatly increased, and the effect of purifying the air is more remarkable, and the effect of the air filtration is maximized. As mentioned above, this creation uses the ingenuity of design, the simple principle and the easy-to-finish technology, so that the photocatalyst grid structure of the creation can not only effectively receive high-energy light to react, but also avoid the photocatalyst unable to start due to the light dead angle. i Increasing the area of the photocatalyst in contact with the air' enables the photocatalyst to function and the effectiveness of the net is further enhanced. The above is only the preferred embodiment of the present invention and is not intended to limit the scope of the present invention. It is equivalent to the equivalent or easy change of the technology, and the spirit and scope are equal. Changes and coverage are covered by this patent. Therefore, the familiarity does not deviate from this creation, it should be [simplified description of the diagram] Figure 1 is a schematic diagram of the conventional photocatalyst filter (-) ° Figure 2 is a schematic diagram of the conventional photocatalyst filter (2) 0 3 The figure is an exploded schematic view of a preferred embodiment of the present invention. Figure i is a combined cross-sectional view of the preferred embodiment of the present invention. Figure 5 is a diagram showing the state of use of the preferred embodiment of the present invention. M415752 [Explanation of main component symbols] [Practical] 11 Photocatalyst filter paper 12 Photocatalyst filter 13 Mesh bag [This case] 2 Photocatalyst grid structure 20 Carrier layer 22 Grid layer 24 Fixed frame 3 Excitation source