TW589200B - Deodorizing device - Google Patents

Deodorizing device Download PDF

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Publication number
TW589200B
TW589200B TW092105195A TW92105195A TW589200B TW 589200 B TW589200 B TW 589200B TW 092105195 A TW092105195 A TW 092105195A TW 92105195 A TW92105195 A TW 92105195A TW 589200 B TW589200 B TW 589200B
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TW
Taiwan
Prior art keywords
ozone
discharge
voltage
frequency
discharge device
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TW092105195A
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Chinese (zh)
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TW200306871A (en
Inventor
Takumi Oikawa
Takao Hattori
Taishin Okada
Noboru Segawa
Naohiko Shimura
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Toshiba Corp
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Publication of TW200306871A publication Critical patent/TW200306871A/en
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Publication of TW589200B publication Critical patent/TW589200B/en

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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L1/00Cleaning windows
    • A47L1/06Hand implements
    • A47L1/09Hand implements for cleaning one side with access from the other side only
    • A47L1/095Hand implements for cleaning one side with access from the other side only with provision for supplying liquids, e.g. cleaning agents
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L1/00Cleaning windows
    • A47L1/06Hand implements
    • A47L1/15Cloths, sponges, pads, or the like, e.g. containing cleaning agents

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  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
  • Exhaust Gas Treatment By Means Of Catalyst (AREA)
  • Physical Or Chemical Processes And Apparatus (AREA)
  • Catalysts (AREA)

Abstract

A deodorizing device 1 is provided with a high-voltage discharger 11 for generating ozone and UV rays, a light-catalyst module 5 decomposing the ozone and pernicious substance involved in the activated air by using the UV rays generated by the high-voltage discharger 11, and an ozone-decomposing device 10 decomposing the ozone generated by the high-voltage discharger 11. The high-voltage discharger 11, the light-catalyst module 5 and the ozone-decomposing device 10 are arranged on an air duct 3. The high-voltage discharger 11 has discharging frequency above human hearing.

Description

589200 五、發明說明(1) [發明所屬之技術領域] 本發明是有關於一種脫臭裝置,適用於分解並脫臭 空氣中所含的臭氣成份及有害物質等。 [先前技術] 近年來,隨著屋外空氣及噪音等的環境污染的平常 化,住宅之高氣密化的進展,對於居住空間内的空氣品 質改善的期望變得很高。在空氣品質中,對於香煙的煙 臭及病人的看護環境等的代謝臭氧的降低,及由住宅建 材產生的V0C(揮發性有機物)所代表的有害氣體成份之去 除的需求變得特別大。 對於這些期望,習知係採用以活性碳為代表的吸著 臭分子的脫臭方式,或是以其他的藥劑和惡臭成份反應 而變更臭氣的特性的方法等。 在習知的技術中,利用吸著劑脫臭或是把有害氣體 成份除去者係受到吸著量的限制,長期使用時,脫臭過 濾器的交換便為不可或缺。且,脫臭過濾器在壽命期間 中的壽命末期時,仍會有把已吸著的臭分子再放出而產 生臭氣的可能。 另一方面,以其他的藥劑成份和臭氣成份反應而變 更臭氣特質的方法。因為藥劑成份會消耗,吸收藥劑需 卜2個月更換1次的頻率,相當麻煩,而且藥劑成份放至 環境的放出量則會受到室内溫度的控制,當室溫高則藥 劑的放出量便會增加,而對於脫臭效的放出量及藥劑成 份的壽命的關連控制也相當困難。589200 V. Description of the invention (1) [Technical field to which the invention belongs] The present invention relates to a deodorizing device suitable for decomposing and deodorizing odorous components and harmful substances contained in the air. [Prior Art] In recent years, with the normalization of environmental pollution such as outdoor air and noise, and the progress of high airtightness of houses, expectations for improvement in air quality in living spaces have become high. In terms of air quality, there is a particularly large demand for reduction in the smoke odor of cigarettes and reduction of metabolic ozone in the patient's care environment, as well as removal of harmful gas components represented by VOCs (volatile organic compounds) produced by residential building materials. In response to these expectations, conventionally, a deodorization method using adsorbed odor molecules typified by activated carbon, or a method of changing the characteristics of odor by reacting other medicines with odor components, etc. have been conventionally used. In the conventional technology, those who use a sorbent to deodorize or remove harmful gas components are restricted by the amount of sorption. When used for a long time, the exchange of the deodorizing filter is indispensable. In addition, at the end of the life of the deodorizing filter, there is still a possibility that odorous molecules that have been adsorbed are released again to generate an odor. On the other hand, a method for changing the odor properties by reacting other pharmaceutical ingredients with odor components. Because the ingredients of the medicine will be consumed, the frequency of absorbing the medicine needs to be changed once every two months, which is quite troublesome, and the amount of medicine released into the environment will be controlled by the indoor temperature. When the room temperature is high, the amount of medicine released will be Increase, and it is also quite difficult to control the amount of deodorizing effect and the life of the pharmaceutical ingredient.

11020pif.ptd 第6頁 589200 五、發明說明(2) 且,為了除去像甲酸(formaldehyde)那樣的有害氣 體成份,需要氧化還原電位高的觸媒反應,由臭氧氧化 分解至尚未完全分解的中間分解生成的階段,要完全地 無害化非常困難。 所以,雖可能將紫外線照射至以氧化鈦為代表的光 觸媒以產生活性氧,再利用其強氧化力把有害氣體成份 完全地分解,但是,作為紫外線光源,需使用管内含水 銀的螢光燈,廢棄時對環境的負荷的方面來看並不好。 [發明内容] [發明欲解決的課題] 為了解決此些問題,利用高電壓放電使產生臭氧或 紫外線,再利用由此紫外線活性化的光觸媒模組,對空 氣中所含的臭氣成份及有害物質等進行分解,再以臭氧 分解裝置分解由高壓放電裝置產生的臭氧。 此脫臭裝置係,對於脫臭性能的控制及有害氣體的 完全分解、廢棄裝置時的環境負荷等方面而言皆非常的 優良,雖然如此,因為利用高壓放電,會產生對應於放 電頻率的放電音。又,根據高壓放電的條件,會產生雜 訊而影影電視等的影像接收等的問題。 關於放電噪音,如本發明的申請人在日本專利早期 公開第特願2 0 0 1 - 1 5 9 4 7 7號所記載,把放電頻率做在人類 的可聽域範圍以外雖然有效,但是,在5 0 p p s以下的可聽 域以下之放電頻率中,由放電所得的紫外線或臭氧的量 會隨著頻率而呈比例減少,所以有損脫臭性能。11020pif.ptd Page 6 589200 V. Description of the invention (2) In addition, in order to remove harmful gas components such as formic acid (formaldehyde), a catalyst reaction with a high redox potential is required, from ozone oxidation to intermediate decomposition that has not been completely decomposed yet. It is very difficult to completely harmless the generation stage. Therefore, although it is possible to irradiate ultraviolet rays to a photocatalyst represented by titanium oxide to generate active oxygen, and then use its strong oxidizing power to completely decompose harmful gas components, as an ultraviolet light source, a mercury-containing fluorescent lamp in a tube is required. The environmental impact at the time of disposal is not good. [Summary of the Invention] [Problems to be Solved by the Invention] In order to solve these problems, a high-voltage discharge is used to generate ozone or ultraviolet rays, and then a photocatalyst module activated by the ultraviolet rays is used, which is harmful to the odor components contained in the air and harmful. Substances are decomposed, and ozone generated by the high-voltage discharge device is decomposed by an ozone decomposer. This deodorizing device system is excellent in controlling deodorizing performance, completely decomposing harmful gas, and environmental load when disposing of the device. However, because high-voltage discharge is used, a discharge corresponding to the discharge frequency is generated. sound. In addition, depending on the conditions of the high-voltage discharge, there may be problems such as noise and video reception such as shadow television. Regarding discharge noise, as described by the applicant of the present invention in Japanese Patent Laying-Open No. 2000-1-5 9 4 7 7, although it is effective to make the discharge frequency outside the human audible range, but, In the discharge frequency below the audible range of 50 pps or less, the amount of ultraviolet or ozone obtained from the discharge decreases proportionally with the frequency, so the deodorizing performance is impaired.

1 1020pif.ptd 第7頁 589200 五、發明說明(3) 而,若使其放電的頻率為可聽域以上時,雖無放電 音及脫臭性能上的問題,然而,依放電頻率比例產生的 臭氧則會因其場合而產生需要量以上,因而造成臭氧分 解裝置的壽命減短的問題,更,當在可聽域以上的 2 0 k p p s以上進行放電時,控制回路的發熱量會大增,因 而需要各別的冷卻裝置,此為缺點。 為了解決上述的課題,本發明提出一種脫臭裝置, 在人類的可聽域以上的頻率放電,以解決脫臭性能及放 電音的問題,且又可減少臭氧的發生量以延長臭氧分解 裝置的壽命,且對於控制回路不需冷卻裝置。 [解決課題的手段] 為解決上述課題,本發明的脫臭裝置,包括:產生 臭氧及紫外線的一高壓放電裝置、利用此高壓放電裝置 產生的紫外線,進行被活化的空氣中所含臭氧成份及有 害物質等的分解作用之一光觸媒模組,以及分解從高壓 放電裝置所產生臭氧之一臭氧分解裝置。其中高壓放電 裝置、光觸媒模組及臭氧分解裝置係配置於一送風路通 内,且高壓放電裝置的放電頻率為可聽域以上。 以此結構,不會產生放電音的問題,且可使臭氧的 發生量減少以延長臭氧分解裝置的壽命,又可抑制回路 部的發熱量,因而可不需專用的冷卻裝置,故可降低成 本0 在上述的發明中,高壓放電裝置的放電頻率為 2 0 k p p s以上,且放電的開-關間隔為一一定的時間間隔,1 1020pif.ptd Page 7 589200 V. Description of the invention (3) If the discharge frequency is above the audible range, there will be no problems with discharge sound and deodorization performance. Ozone will cause more than the required amount due to the occasion, which will cause the problem of shortening the life of the ozone decomposition device. Furthermore, when the discharge is performed above 20 kpps above the audible range, the heat generation of the control circuit will increase greatly. Therefore, a separate cooling device is required, which is a disadvantage. In order to solve the above-mentioned problems, the present invention proposes a deodorizing device that discharges at frequencies above the human audible range to solve the problems of deodorizing performance and discharge sound, and can reduce the amount of ozone generated to extend the ozone decomposing device. Life, and no cooling device is required for the control circuit. [Means for Solving the Problems] In order to solve the above problems, the deodorizing device of the present invention includes a high-voltage discharge device that generates ozone and ultraviolet rays, and uses ultraviolet rays generated by the high-pressure discharge device to perform ozone components contained in the activated air and A photocatalyst module which is one of the decomposition functions of harmful substances and the like, and an ozone decomposition device which decomposes ozone generated from a high voltage discharge device. The high-voltage discharge device, photocatalyst module and ozone decomposition device are arranged in a supply air path, and the discharge frequency of the high-voltage discharge device is above the audible range. With this structure, the problem of discharge sound is not generated, and the amount of ozone generated can be reduced to prolong the life of the ozone decomposition device, and the heat generation of the circuit part can be suppressed. Therefore, a dedicated cooling device is not needed, so the cost can be reduced. In the above invention, the discharge frequency of the high-voltage discharge device is 20 kpps or more, and the on-off interval of the discharge is a certain time interval.

11020pif.ptd 第8頁 589200 五、發明說明(4) 且間歇運轉頻率為50Hz以下或20kHz以上。因為放電頻率 為可聽域的範圍以外,便不會因間隙運轉的頻率在可聽 域内而產生噪音。 在上述發明中,根據一臭氣感測器的回應以變更高 壓放電裝置的間歇運轉控制。當臭氣比較少時,可降臭 氧發生量及回路發熱量。 為讓本發明之上述和其他目的、特徵、和優點能更 明顯易懂,下文特舉一較佳實施例,並配合所附圖式, 作詳細說明如下: [實施方式] 以下,根據圖面說明本發明的一個實施例。第1圖繪 ¥ 示關於本發明之脫臭裝置1的縱斷面圖,把送風風扇 (fan)4配置在電冰箱的冷氣通路(duct)及空調裝置的空 氣通路等之以通路構件2所形成的風路3中,在風的上側 設有光觸媒模組5,且在光觸媒組5和送風風扇4之間配設 有分解觸媒過濾器(f i 11 e r ) 1 0。 光觸媒模組5,在由I呂及石夕石(s i 1 i c a )等的多孔質陶 瓷所構成的基體的表面上,把塗佈以氧化鈦為代表的光 觸媒材料,並乾燥或燒結而固著的光觸媒過濾器6、7鄰 設2片,在此光觸媒過濾器之間,直立設置由不鏽鋼等的 薄板#刻(e t c h i n g )而形成網目狀的放電電極8,且在前 _ 述2片的光觸媒過濾器6、7的風路3的上風及下風側,分 別配置和前述放電電極8同樣的對極9。 且,前述光觸媒模組5的光觸媒過濾器,不一定要由11020pif.ptd Page 8 589200 V. Description of the invention (4) And the intermittent running frequency is below 50Hz or above 20kHz. Because the discharge frequency is outside the range of the audible range, no noise will be generated because the frequency of the gap operation is in the audible range. In the above invention, the intermittent operation control of the high-voltage discharge device is changed based on the response of an odor sensor. When there is less odor, it can reduce the amount of odorous oxygen and the heat generated in the circuit. In order to make the above and other objects, features, and advantages of the present invention more comprehensible, a preferred embodiment is described below in detail with the accompanying drawings as follows: [Embodiment] Hereinafter, according to the drawings An embodiment of the present invention will be described. Fig. 1 shows a longitudinal cross-sectional view of the deodorizing device 1 of the present invention, and a fan 4 is arranged in a cooling air duct of a refrigerator and an air path of an air conditioner. In the formed air path 3, a photocatalyst module 5 is provided on the upper side of the wind, and a decomposition catalyst filter (fi 11 er) 10 is disposed between the photocatalyst group 5 and the air-sending fan 4. The photocatalyst module 5 is a photocatalyst which is coated with a photocatalyst material typified by titanium oxide on the surface of a substrate made of porous ceramics such as Iro and Shi Xiica (si 1 ica), and is dried or sintered to fix the photocatalyst. Two filters 6 and 7 are arranged next to each other. Between this photocatalyst filter, a discharge electrode 8 formed by a thin plate #etching to form a mesh shape is set upright, and the two photocatalyst filters described above On the upwind and downwind sides of the air path 3 of 6 and 7, counter electrodes 9 similar to the discharge electrodes 8 are arranged, respectively. In addition, the photocatalyst filter of the photocatalyst module 5 is not necessarily limited to

11020pif.ptd 第9頁 589200 五、發明說明(5) 2片鄰設,像從電冰箱的冷藏室到蔬果室的冷氣通路中所 設的脫臭裝置,當臭氣成份或乙烯浮游菌比較少的場 合,在1片的光觸媒過濾器的前後設置對極9和放電電極8 也可以。 1 1為電源回路,利用高電壓產生變壓器1 2 ,把正脈 衝狀的直流高電壓施加至前述放電電極8和各對極9之 間。 前述放電電極8的網目的大小係,形成為比對極9的 網目的大小更大。以此結構,放電電極8和對極9便具有 產生紫外線用的放電手段的機能,以在雙方的電極間產 生由放電造成的波長3 8 0奈米(nm)以下的紫外線。 又,當此放電電極8和對極9放電時,因為會產生紫 外線及臭氧,前述光觸媒模組5具有以紫外線產生的活性 氧把有害氣體成份完全分解的功能,且也具有臭氧產生 手段的功能。吸收從此光觸媒模組5往下風側空出所定的 距離而設置的吸收臭氧的臭氧分解觸媒過濾器1 0係,由 以二氧化錳為主成份的蜂窩形狀的燒結體所構成。 使上述構成的脫臭裝置1作動的場合係如以下所述。 亦即,通電至電源回路1 1 ,驅動送風風扇4,當把電壓施 加至放電電極8及對極9之間時,在電極間便產生由放電 造成的紫外線。 藉由把紫外線照射至光觸媒過濾器6、7,使光觸媒 活化所產生的活性氧流下至風路3,利用氫氧基(游離基) 的強氧化作用,把附著在光觸媒過濾器6、7表面的臭氣11020pif.ptd Page 9 589200 V. Description of the invention (5) Two pieces are arranged next to each other, such as the deodorizer installed in the air-conditioning path from the refrigerator freezer to the fruit and vegetable room. When the odor component or ethylene plankton is less, In this case, the counter electrode 9 and the discharge electrode 8 may be provided before and after a single photocatalyst filter. 11 is a power supply circuit. A high-voltage generating transformer 1 2 is used to apply a positive pulse-shaped DC high voltage between the aforementioned discharge electrode 8 and each pair of poles 9. The mesh size of the discharge electrode 8 is larger than the mesh size of the counter electrode 9. With this structure, the discharge electrode 8 and the counter electrode 9 have a function of a discharge means for generating ultraviolet rays, so as to generate ultraviolet rays having a wavelength of 380 nm or less due to the discharge between the electrodes. In addition, when the discharge electrode 8 and the counter electrode 9 are discharged, because the ultraviolet rays and ozone are generated, the photocatalyst module 5 has a function of completely decomposing harmful gas components with active oxygen generated by ultraviolet rays, and also has a function of an ozone generating means. . The ozone-absorbing ozonolysis catalyst filter 10, which absorbs a predetermined distance from the photocatalyst module 5 to the downwind side, is composed of a honeycomb-shaped sintered body mainly composed of manganese dioxide. The operation of the deodorizing device 1 configured as described above is as follows. That is, the power is supplied to the power supply circuit 1 1 and the blower fan 4 is driven. When a voltage is applied between the discharge electrode 8 and the counter electrode 9, ultraviolet rays caused by the discharge are generated between the electrodes. By irradiating ultraviolet rays to the photocatalyst filters 6, 7, the active oxygen generated by the photocatalyst activation flows down to the air path 3, and the strong oxidation of hydroxyl groups (free radicals) is used to attach the photocatalyst filters 6, 7 to the surface. Stink

11020pif.ptd 第10頁 589200 五、發明說明(6) 氣體成份及有機化合物的結合分解掉,並以無臭化或低 臭化進行脫臭。 且,使細菌的菌細胞膜脆化以進行抗菌,利用氧化 分解作用抑制光觸媒過濾器6、7表面的微生物繁殖,以 分解除去脫臭裝置1及風路壁表面的污物。 相對於以上述結構為前提的本發明之一實施例的比 較例係,在上述動作中,在放電電極8和對極9之間,以 4 k V (千伏特)的峰值電壓,施以人類可聽域以上的放電頻 率之2 0 k p p s (千脈衝/秒)的電壓,以進行連續運轉。 在此場合,由第2圖所示可知峰值電壓為4kV的放電 頻率和噪音等線的關係。放電頻率為2 Okpps的場合時發 生的放電音是在人類的可聽域以上,因為是在人感覺不 到音的範圍,所以裝置的噪音值為1 7. 6 db,且無接近暗 噪音(dark noise)(15.4db)的問題。 然而,以被排出的臭氧1 . 1 ppm為作業環境基準而超 過0 . 5 p p in以上時,供給高電壓的電源回路1 1上的抵抗表 面溫度也會成為攝氏150度的極高溫。通常,當阻抗表面 溫度超過攝氏70〜80時回路壽命會變得極端地短,在本比 較例的場合,為了維持回路壽命需要有冷卻裝置,由以 下的實施例進行檢討。 [實施例] 作為本發明的脫臭裝置,和第1圖同樣的,在放電電 極8和對極9之間,以峰值電壓4 k V,施予2 0 k p p s的電壓 時,放電的開(0 N )時間為0 · 0 1秒,關(0 F F )時間為0 . 0 911020pif.ptd Page 10 589200 V. Description of the invention (6) The combination of gas components and organic compounds is decomposed and deodorized with no odor or low odor. Furthermore, the bacterial cell membrane of the bacteria is embrittled for antibacterial purposes, and the proliferation of microorganisms on the surfaces of the photocatalyst filters 6, 7 is inhibited by oxidative decomposition, so as to decompose and remove the dirt on the surface of the deodorizing device 1 and the airway wall. Compared with the comparative example of one embodiment of the present invention based on the above-mentioned structure, in the above-mentioned operation, a peak voltage of 4 k V (kilovolts) is applied to the human between the discharge electrode 8 and the counter electrode 9. A voltage of 20 kpps (kilopulses / second) at a discharge frequency above the audible range for continuous operation. In this case, the relationship between the discharge frequency with a peak voltage of 4 kV and the contour of noise is shown in Fig. 2. When the discharge frequency is 2 Okpps, the discharge sound is above the human audible range. Because it is in the range where the sound is not felt by the human, the device's noise value is 1 7. 6 db, and there is no near dark noise ( dark noise) (15.4db). However, when the discharged ozone is 1.1 ppm as the operating environment standard and exceeds 0.5 p pin or more, the resistance surface temperature on the power circuit 11 supplying a high voltage may also become extremely high at 150 degrees Celsius. Generally, when the impedance surface temperature exceeds 70 to 80 degrees Celsius, the circuit life becomes extremely short. In the case of this comparative example, a cooling device is required to maintain the circuit life, which will be reviewed in the following examples. [Example] As the deodorizing device of the present invention, as in FIG. 1, when the discharge electrode 8 and the counter electrode 9 are applied with a peak voltage of 4 kV and a voltage of 20 kpps, the discharge is turned on ( 0 N) time is 0 · 0 1 second, and off (0 FF) time is 0. 0 9

11020pif.ptd 第11頁 589200 五、發明說明(7) 秒,以此間隙運轉。 此間隙運轉時每1秒的開-關次數的運轉頻率為5 0 Η Z 以下或2 0 k Η ζ以上的可聽域外,即使放電頻率在可聽域的 範圍以外,間隙運轉的頻率仍在可聽域内,所以要使噪 音的問題不發生。 結果是,噪音值為1 7. 6 db,雖和前述比較例相同並 未變低,但是,其排出臭氧則為0 . 0 9 ppm,比作業環境基 準還要低得多,高電壓回路11上的阻抗表面溫度為攝氏 38度,成為不需在回路上進行冷卻的程度。 [實施例2 ] 和實施例1的基本結構相同’並把供給局電壓的電源 回路1 1設置在風路3上。此時的噪音值為1 7. 6 db,排出臭 氧為0 . 0 9 p p m,和實施例1相同,且高電壓回路1 1上的阻 抗表面溫度為攝氏3 2度,為比實施例1低而無問題的程 度。 通常,在前述高電壓回路1上的阻抗等的發熱部,需 設有冷卻風扇等的放熱裝置,然而,在本實施例之脫臭 裝置的運轉中,因為,利用風扇的回轉,一直在風路中 產生風流量,並且間隙地放電,此風路3斷面積中的一部 份設置高電壓回路1 1 ,在回路發熱時,同步地強制送風 冷卻,因而可不需各別的放熱裝置便可放熱以冷卻發熱 部。 [實施例3 ] 和實施例1為基本上相同的結構,在第3圖中同一部11020pif.ptd Page 11 589200 V. Description of the invention (7) seconds, running at this interval. The operating frequency of on-off times per second during this gap operation is 50 1 Z or less or 20 k 2 ζ or more outside the audible range. Even if the discharge frequency is outside the audible range, the frequency of the gap operation is still In the audible range, the noise problem should not occur. As a result, the noise value was 17.6 db, which was not the same as the previous comparative example, but its ozone emission was 0.9 ppm, which was much lower than the operating environment standard. The high-voltage circuit was 11 The surface temperature of the impedance is 38 degrees Celsius, which is a degree that does not require cooling on the circuit. [Embodiment 2] The basic structure is the same as that of Embodiment 1, and a power supply circuit 11 for supplying a local voltage is provided on the air path 3. The noise value at this time was 17.6 dB, and the ozone emission was 0.9 ppm, which is the same as in Example 1, and the impedance surface temperature on the high-voltage circuit 11 was 32 degrees Celsius, which was lower than that in Example 1. And the extent of the problem. Generally, a heating device such as a cooling fan needs to be provided in the heating part such as the impedance on the high-voltage circuit 1; however, in the operation of the deodorizing device of this embodiment, the fan is always used in the wind. A high-voltage circuit 1 1 is set in a part of the cross-sectional area of this air path 3, and the air flow is generated in the road. The high-voltage circuit 1 1 is set during the heat generation of the circuit. Exhaust heat to cool the heat generating part. [Embodiment 3] The structure is substantially the same as that of Embodiment 1, and the same portion is shown in Fig. 3

11020pif.ptd 第12頁 589200 五、發明說明(8)11020pif.ptd Page 12 589200 V. Description of the invention (8)

份為同一符號,比較檢討把包含高電壓產生變壓器1 2的 電源回路1 1 ,設置在風路3上的光觸媒模組5的上流側的A 位置,以及臭氧分解觸媒過濾器1 0的下流側的送風風扇4 之間的B位置。且同時,利用產生屎尿臭的阿摩尼亞,進 行1 0小時的脫臭耐久比較試驗,以調查外觀。 結果是,如第4圖的表示,高電壓電壓器12的阻抗表 面溫度在A、B位置都是攝氏55度,而為無問題的程度, 但是,設置於光觸媒模組5的上流側的A位置者會受至阿 摩尼亞的影響,且可確認到在變壓器1 2的金屬部份發生 鏽。相對於此,在下風側的B位置,則可利用因光觸媒氧 化分解作用清淨的空氣進行冷卻,且可保護高電壓變壓 器1 2免受臭氣物質的污染。 [實施例4 ] 雖然圖未繪示,當接觸到臭氣物質時,作為利用阻 抗變化以檢知此接觸的感應材料係,使用氧化錫的熱線 型半導體感測器等的臭氣感測器設在脫臭裝置,放電頻 率為2 0kpps ,放電的關(OFF)時間為0· 05秒,開(0N)時間 則根據自臭氣感測器而來的信號在0 . 0 1〜0 . 〇 9秒之間比例 地變化,藉此以構成回路。當此時的嗓音程度如 1 6. 8〜1 7 . 8db低時,臭氧發生量則可做出在作業環境基準 0.5ppm以下的0.13〜0·23ρρπι,而成為無實用上問題的程 度。 [發明效果] 如以說明的本發明結構,把放電頻率以人類可聽域The same symbol is used to compare and review the power circuit 1 1 including the high-voltage generating transformer 12, the position A on the upstream side of the photocatalyst module 5 installed on the air path 3, and the downstream of the ozone decomposition catalyst filter 10. Position B between the air supply fans 4 on the side. At the same time, a 10-hour deodorization endurance comparison test was performed using Amonia that produced fecal odor and the appearance was examined. As a result, as shown in FIG. 4, the impedance surface temperature of the high-voltage voltage transformer 12 is 55 degrees Celsius at both the A and B positions, and it is a degree without problems. However, A is provided on the upstream side of the photocatalyst module 5. The location person was affected by Armonia, and it was confirmed that rust occurred in the metal part of the transformer 12. In contrast, at the B position on the downwind side, the air cleaned by the photocatalytic oxidation and decomposition can be used for cooling, and the high-voltage transformer 12 can be protected from odorous substances. [Example 4] Although not shown in the figure, when an odorous substance is contacted, an odor sensor such as a hot wire semiconductor sensor using tin oxide is used as a sensing material system for detecting the contact by using a change in impedance. Set in the deodorizing device, the discharge frequency is 20kpps, the OFF time of the discharge is 0.05 seconds, and the ON time is 0. 0 1 ~ 0 according to the signal from the odor sensor. 〇9 seconds proportionally change, thereby forming a circuit. When the voice level at this time is as low as 16.8 to 17.8db, the amount of ozone generated can be 0.13 to 0 · 23ρριm, which is 0.5ppm or less below the operating environment standard, and it becomes a degree without practical problems. [Effects of the Invention] According to the structure of the present invention described, the discharge frequency is set in a human audible range.

11020pif.ptd 第13頁 589200 五、發明說明(9) 以上間歇地放電,藉此,使放電音的問題不會發生,且 可使臭氧的發生量減少,而延長臭氧分解裝置的壽命, 且可抑制回路部的發熱量,因而不需專用的冷卻裝置, 可降低成本。 雖然本發明已以較佳實施例揭露如上,然其並非用 以限定本發明,任何熟習此技藝者,在不脫離本發明之 精神和範圍内,當可作些許之更動與潤飾,因此本發明 之保護範圍當視後附之申請專利範圍所界定者為準。11020pif.ptd Page 13 589200 V. Description of the invention (9) Discharge intermittently above, so that the problem of discharge sound will not occur, and the amount of ozone generated can be reduced, and the life of the ozone decomposition device can be extended. Since the heat generation in the circuit is suppressed, a dedicated cooling device is not required, and the cost can be reduced. Although the present invention has been disclosed in the preferred embodiment as above, it is not intended to limit the present invention. Any person skilled in the art can make some modifications and retouching without departing from the spirit and scope of the present invention. Therefore, the present invention The scope of protection shall be determined by the scope of the attached patent application.

11020pif.ptd 第14頁 589200 圖式簡單說明 [圖式簡單說明] 第1圖繪示本發明之實施例1的脫臭裝置的概略縱斷 面圖; 第2圖繪示第1圖之裝置的噪音和放電頻率的關係圖; 第3圖繪示實施例3的脫臭裝置的縱斷面圖;以及 第4圖繪示第3圖之實驗結果表。 [圖式標示說明] 1 脫臭裝置 2 通路構件 3 風路 4 送風風扇 5 光觸媒模組 6、 7 : 光觸媒過濾 器 8 : :放電電極 9 : :對極 10 :臭氧分解觸媒 過濾器 11 : 電源回路 12 : 變壓器(trans former) _11020pif.ptd Page 14 589200 Brief description of drawings [Simplified description of drawings] Fig. 1 is a schematic longitudinal sectional view of a deodorizing device according to Embodiment 1 of the present invention; Fig. 2 is a diagram showing the device of Fig. 1 A diagram showing the relationship between noise and discharge frequency; Fig. 3 is a longitudinal sectional view of the deodorizing device of Example 3; and Fig. 4 is a table showing the experimental results of Fig. 3. [Schematic description] 1 Deodorizing device 2 Passage member 3 Air path 4 Air supply fan 5 Photocatalyst module 6, 7: Photocatalyst filter 8:: Discharge electrode 9:: Counter electrode 10: Ozone decomposition catalyst filter 11: Power circuit 12: transformer (trans former) _

11020pif.ptd 第15頁11020pif.ptd Page 15

Claims (1)

589200 六、申請專利範圍 1. 一種脫臭裝置,包括: 一高壓放電裝置,產生臭氧及紫外線; 一光觸媒模組,利用該高壓放電裝置產生的紫外 線,進行被活化的空氣中所含臭氧成份及有害物質等的 分解作用;以及 一臭氧分解裝置,分解從該高壓放電裝置所產生的 臭氧, 其中該高壓放電裝置、該光觸媒模組及該臭氧分解 裝置係配置於一送風路通内,且該高壓放電裝置的放電 頻率為可聽域以上。 2 ·如申請專利範圍第1項所述之脫臭裝置,其中該高 _ 壓放電裝置的放電頻率為20 kpps以上,且該放電的開-關 間隔為--定的時間間隔,且間歇運轉頻率為5 0 Η z以下 或20kHz以上。 3.如申請專利範圍第1項或第2項所述之脫臭裝置, 根據一臭氣感測器的回應以變更高壓放電裝置的間歇運 轉控制。589200 VI. Application for patent scope 1. A deodorizing device, comprising: a high-voltage discharge device that generates ozone and ultraviolet rays; a photocatalyst module that uses the ultraviolet rays generated by the high-pressure discharge device to perform the ozone component contained in the activated air and Decomposition of harmful substances and the like; and an ozone decomposition device that decomposes ozone generated from the high-pressure discharge device, wherein the high-pressure discharge device, the photocatalyst module, and the ozone decomposition device are arranged in a supply air passage, and the The discharge frequency of the high-pressure discharge device is above the audible range. 2 · The deodorizing device according to item 1 of the scope of the patent application, wherein the discharge frequency of the high-voltage discharge device is more than 20 kpps, and the on-off interval of the discharge is a fixed time interval, and intermittent operation The frequency is below 50 Η z or above 20 kHz. 3. According to the deodorization device described in item 1 or 2 of the scope of patent application, according to the response of an odor sensor, change the intermittent operation control of the high voltage discharge device. 11020pif.ptd 第16頁11020pif.ptd Page 16
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JP2006122521A (en) * 2004-10-29 2006-05-18 Toshiba Corp Disinfection system
JP4887725B2 (en) * 2005-10-19 2012-02-29 パナソニック株式会社 Deodorization device
JP4613813B2 (en) * 2005-12-21 2011-01-19 東芝ホームテクノ株式会社 Catalyst deodorizer
JP4607844B2 (en) * 2006-10-11 2011-01-05 株式会社東芝 refrigerator
JP2010038533A (en) * 2008-07-08 2010-02-18 Panasonic Corp Food storage
JP2010038532A (en) * 2008-07-08 2010-02-18 Panasonic Corp Refrigerator
JP2010156530A (en) * 2008-07-08 2010-07-15 Panasonic Corp Food storage
CN101401947A (en) * 2008-11-05 2009-04-08 黄永卫 Air cleaning apparatus for refrigerated container
CN102688513B (en) * 2011-03-24 2014-03-12 清华大学 Harmful substance removal device and air purification device adopting harmful substance removal device
US9165756B2 (en) * 2011-06-08 2015-10-20 Xenex Disinfection Services, Llc Ultraviolet discharge lamp apparatuses with one or more reflectors
JP5861204B2 (en) * 2012-03-06 2016-02-16 株式会社増田研究所 Small deodorizer
CN105903417B (en) * 2016-06-16 2018-02-23 华侨大学 A kind of LED light catalytic reactor

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1110607A (en) * 1994-04-25 1995-10-25 冯克伟 Multipurpose fresh-keeping machine
JP3509741B2 (en) * 1999-12-27 2004-03-22 株式会社セキュリティーシステム Non-discharge air purifier, non-discharge air cleaning method, and non-discharge air sterilizer
JP3754601B2 (en) * 2000-06-16 2006-03-15 株式会社東芝 refrigerator
JP2002153552A (en) * 2000-11-20 2002-05-28 Toshiba Corp Deodorizing device

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