M329442 八、新型說明: 【新型所屬之技術領域】 繊甘本創作疋有關於_種提供—種光觸媒模組與包含此光 :媒模組之空調系統,特料—種用於消除空氣中有害物 貝的光觸媒模組與其空調系統。 【先前技術】 =著工業的進步與發達,空氣污染曰益嚴重。為了維 持居豕的空氣品質’一般的空調設備都具有空氣清淨器。 目前的空氣清淨器大多包含有光觸媒模組,此光觸媒模組 係&用i外光來照射光觸媒’使光觸媒發生化學反應,以 消除空氣中對人體有害的物質。 立凊參照第1圖,其係繪示習知光觸媒模組10的結構示 思圖。光觸媒模組10係、包含有冷陰極螢光燈管(CCFL)12 和光觸媒濾網14,其中光觸媒濾網14為塗佈有光觸媒之纖 維§冷陰極螢光燈管12發射紫外線至光觸媒濾網14時, 光觸媒濾網14中的光觸媒會發生化學反應而產生氫氧自由 基。氫氧自由基是極具分解能力的分子,能分解各種有害 物質,例如細菌、病毒等...。 然而,因為光觸媒模組10的照射面無法均勻廣泛,因 此,光觸媒濾網14上可能會有未被紫外光照射到的死角。 另外,冷陰極螢光燈管所佔據的體積過大,且含有有毒物 負,因此光觸媒模組1〇不但體積龐大且容易污染環境。 因此需要提供一種新的光觸媒模組,不但具有均勻的 照射面’還具有更小的體積,以及不會污染環境。 M329442 【新型内容】 本創作之一方面係在提供一種包含導光物體之光觸媒 模組。 本創作之另一方面係在提供一種包含此光觸媒模組之 空調系統。 根據本創作之一實施例,此光觸媒模組至少包含光觸 媒濾網和複數個第一發光二極體。光觸媒濾網係以導光材 料所製成’例如:壓克力。第一發光二極體係鄰設於光觸 媒濾網之第一側面,用以發射紫外光至光觸媒濾網。 根據本創作之另一實施例,此光觸媒模組更包含複數 個第二發光二極體。第二發光二極體係用以發射另一紫外 光至光觸媒濾網,並鄰設於光觸媒濾網之第二側面。 根據本創作之再一實施例,提供一種空調系統。此空 調系統至少包含光觸媒模組和風扇模組。風扇模組,係用 以透過光觸媒模組來吸入空氣至空調系統。光觸媒模組至 少包含光觸媒濾網和複數個發光二極體,其中該光觸媒濾 網係一導光材料所製成,發光二極體鄰設於光觸媒濾網之 一側面。 綜合以上所述,本創作之光觸媒模組可減少紫外光照 的死角,提升光觸媒的利用率,且更具有體積小,不具污 染源等優點。 【實施方式】 請參照第2圖,其係繪示根據本創作之第一實施例之 光觸媒模組100的結構示意圖。光觸媒模組ι〇〇至少包含 M329442 光觸媒滤網102和複數個發光:極體104,其中光觸媒濾網 102係以導光材料所製成。此導光材料可為高分子聚合物, 例如·壓克力。發光二極體104係鄰設於光觸媒渡網102 之側面102a’並用以發射紫外光至光觸媒滤_ 1〇2。由 於光觸媒濾網1G2係由導光材料所組成,因此當紫外光照 射到光觸媒濾肩Η)2後,便會均勻分散至光觸媒濾網ι〇2 的每個抽,減J光照的死角。另外,光觸媒模組】〇〇係 =發光二極體來代替習知光觸媒模組中的冷陰極營光燈 管’因此光觸媒模、组100的體積可較習 > 光觸媒模組為小, 且不會污染環境。 請參照帛3 ffil,其係、緣示根據本創作之第二實施例之 光觸媒模組200的結構示意圖。光觸媒模組2〇〇係類似於 光觸媒模組100,但不同之處在於光觸媒模組1〇〇更包含了 複數個發光二極體2G4。發光二極體綱係鄰設於光觸媒濾 網102之另一側面l02b,側面1〇2b係與側面1〇2&相鄰。 利用發光二極體104和204來分別從水平和垂直方向發射 紫外光至光觸媒濾網102,可進一步減少光照的死角。 值得一提的是,在本創作之第二實施例中,空氣可由 表面102c進入光觸媒濾網102,再從表面1〇2d離開光觸媒 濾網102,其中表面102c係相對於表面1〇2d,而側面1〇汕 和側面102a皆與表面l〇2c和表面102d相鄰。 請參照第4圖,其係繪示根據本創作之第四實施例之 空调系統400的結構示意圖。空調系統4〇〇至少包含:光 觸媒模組100和風扇模組410。風扇模組41〇係用以抽取空 氣420來流過光觸媒模組100,以減少空氣中的有害物質。 M329442 請參照第5圖’其係繪示本創作之第五實施例之空調 系統500的結構示意圖。空調系統5〇〇係類似於空調系統 400,但不同之處在於空調系統500更包含冷卻模組5〇/。 冷卻模組502係用以將光觸媒模組1〇〇所製造的乾淨空氣 降溫。因此空調系統500可例如為冷氣機。 二” 綜合以上所述,本創作之光觸媒模組可減少紫外光照 的死角,提升光觸媒的利用帛,且更具有體積小,不具污 染源等優點。M329442 VIII. New Description: 【New Technology Fields】 繊甘本写疋 There are about _ kinds of photocatalyst modules and air conditioning systems containing this light: media module, special materials - used to eliminate harmful in the air Photocatalyst module and its air conditioning system. [Prior Art] = The progress and development of industry, the air pollution is very serious. In order to maintain the air quality of the residence, the general air-conditioning equipment has an air cleaner. Most of the current air cleaners include a photocatalyst module that uses an external light to illuminate the photocatalyst to chemically react the photocatalyst to eliminate harmful substances in the air. Referring to Fig. 1, there is shown a structural diagram of a conventional photocatalyst module 10. The photocatalyst module 10 includes a cold cathode fluorescent lamp (CCFL) 12 and a photocatalyst filter 14, wherein the photocatalyst filter 14 is a fiber coated with a photocatalyst. The cold cathode fluorescent lamp 12 emits ultraviolet light to the photocatalyst filter. At 1400, the photocatalyst in the photocatalyst filter 14 undergoes a chemical reaction to generate hydroxyl radicals. Hydroxyl radicals are highly decomposable molecules that decompose various harmful substances such as bacteria, viruses, etc... However, since the illuminated surface of the photocatalyst module 10 is not uniform and wide, there may be a dead space on the photocatalyst filter 14 that is not irradiated with ultraviolet light. In addition, the cold cathode fluorescent lamp tube is too large in volume and contains toxic substances, so the photocatalyst module 1 is not only bulky but also easily pollutes the environment. There is therefore a need to provide a new photocatalyst module that not only has a uniform illumination surface but also has a smaller volume and does not pollute the environment. M329442 [New Content] One aspect of this creation is to provide a photocatalyst module containing a light guiding object. Another aspect of the present invention is to provide an air conditioning system including the photocatalyst module. According to an embodiment of the present invention, the photocatalyst module comprises at least a photocatalyst filter and a plurality of first light emitting diodes. Photocatalyst filters are made of light-guiding materials, such as acrylic. The first light emitting diode system is disposed adjacent to the first side of the photocatalyst filter to emit ultraviolet light to the photocatalyst filter. According to another embodiment of the present invention, the photocatalyst module further includes a plurality of second light emitting diodes. The second light emitting diode system is configured to emit another ultraviolet light to the photocatalyst filter and adjacent to the second side of the photocatalyst filter. According to still another embodiment of the present invention, an air conditioning system is provided. The air conditioning system includes at least a photocatalyst module and a fan module. The fan module is used to draw air into the air conditioning system through the photocatalyst module. The photocatalyst module comprises at least a photocatalyst filter and a plurality of light emitting diodes, wherein the photocatalyst filter is made of a light guiding material, and the light emitting diode is adjacent to one side of the photocatalyst filter. In summary, the photocatalyst module of the present invention can reduce the dead angle of ultraviolet light, improve the utilization rate of the photocatalyst, and has the advantages of small volume and no pollution source. [Embodiment] Please refer to FIG. 2, which is a schematic structural view of a photocatalyst module 100 according to a first embodiment of the present invention. The photocatalyst module ι includes at least an M329442 photocatalyst filter 102 and a plurality of illuminants: a polar body 104, wherein the photocatalyst filter 102 is made of a light guiding material. The light guiding material may be a high molecular polymer such as acryl. The LEDs 104 are disposed adjacent to the side 102a' of the photocatalyst network 102 and are used to emit ultraviolet light to the photocatalyst filter _1〇2. Since the photocatalyst filter 1G2 is composed of a light guiding material, when the ultraviolet light is incident on the photocatalyst filter shoulder 2, it is evenly dispersed to each pumping of the photocatalyst filter ι〇2, and the dead angle of the J light is reduced. In addition, the photocatalyst module is a light-emitting diode instead of a cold-cathode lamp in a conventional photocatalyst module. Therefore, the volume of the photocatalyst module and the group 100 can be smaller than that of the photocatalyst module. Will not pollute the environment. Please refer to 帛3 ffil, which is a schematic diagram showing the structure of the photocatalyst module 200 according to the second embodiment of the present invention. The photocatalyst module 2 is similar to the photocatalyst module 100, except that the photocatalyst module 1 further includes a plurality of LEDs 2G4. The light-emitting diode is adjacent to the other side 108b of the photocatalyst filter 102, and the side 1〇2b is adjacent to the side 1〇2& The use of the light-emitting diodes 104 and 204 to emit ultraviolet light from the horizontal and vertical directions to the photocatalyst filter 102, respectively, further reduces the dead angle of illumination. It is worth mentioning that in the second embodiment of the present invention, air may enter the photocatalyst filter 102 from the surface 102c and exit the photocatalyst filter 102 from the surface 1〇2d, wherein the surface 102c is relative to the surface 1〇2d, and Both the side 1 and the side 102a are adjacent to the surface 10c and the surface 102d. Referring to Fig. 4, there is shown a schematic structural view of an air conditioning system 400 according to a fourth embodiment of the present invention. The air conditioning system 4A includes at least a photocatalyst module 100 and a fan module 410. The fan module 41 is used to extract air 420 to flow through the photocatalyst module 100 to reduce harmful substances in the air. M329442 Please refer to Fig. 5, which is a schematic structural view of an air conditioning system 500 according to a fifth embodiment of the present invention. The air conditioning system 5 is similar to the air conditioning system 400, but the difference is that the air conditioning system 500 further includes a cooling module 5〇/. The cooling module 502 is used to cool the clean air produced by the photocatalyst module 1〇〇. Thus, the air conditioning system 500 can be, for example, an air conditioner. In summary, the photocatalyst module of the present invention can reduce the dead angle of ultraviolet light, enhance the utilization of photocatalyst, and has the advantages of small volume and no pollution source.
雖然本創作已以實施例揭露如上,然其並非用以限定 本創作’任何熟習此技藝者’在不脫離本創作之精神和範 圍内’當可作各種之更動與潤飾,因此本創作之保護範圍 當視後附之申請專利範圍所界定者為準。 【圖式簡 為讓 顯易懂, 細說明如 第1 第2 的結構示 第3 的結構示 第4 結構示意 第5 單說明】 本創作之上述和其他目特徵、和優點能更明 上文特舉-較佳實施例,並配合所附圖式 下: 圖係繪示習知光觸媒模組的結構示意圖。 圖係緣示根據本冑彳# > # 別作之第一貫施例之光觸媒模組 意圖。 ,係、.曰不根據本創作之第二實施例之光觸媒模組 意圖。 之空調系統的 之空調系統的 圖係繪示_本_之第四實施例 圖 圖係繪示根據本創作之第五實施例 8 M329442Although the present invention has been disclosed in the above embodiments, it is not intended to limit the creation of the present invention. Anyone who is familiar with the art will be able to make various changes and refinements without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached. [The diagram is simplified and easy to understand. The structure of the first and second structures is shown in the third structure. The fourth structure is illustrated by the fifth structure.] The above and other features and advantages of the present work can be more clearly explained. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT(S) In conjunction with the accompanying drawings, the drawings illustrate the structure of a conventional photocatalyst module. The image is based on the intention of the photocatalyst module according to the first example of this. The system is not intended to be based on the photocatalyst module of the second embodiment of the present invention. The diagram of the air conditioning system of the air conditioning system is shown in the fourth embodiment of the present invention. The figure shows the fifth embodiment according to the present invention. 8 M329442
結構不意圖。 【主要元件符號說明】 10 :光觸媒模組 14 :光觸媒濾網 102 ·•光觸媒濾網 102b :側面 102d :表面 200 :光觸媒模組 400 :空調系統 420 :空氣 502 :冷卻模組 12 :冷陰極螢光燈管 100 :光觸媒模組 102a :側面 102c ··表面 104 :發光二極體 204 :發光二極體 410 :風扇模組 500 :空調系統The structure is not intended. [Main component symbol description] 10: Photocatalyst module 14: Photocatalyst filter 102 • Photocatalyst filter 102b: Side 102d: Surface 200: Photocatalyst module 400: Air conditioning system 420: Air 502: Cooling module 12: Cold cathode fluorescent Light tube 100: photocatalyst module 102a: side 102c · surface 104: light emitting diode 204: light emitting diode 410: fan module 500: air conditioning system