JP3067089B2 - Deodorizing method and deodorizing device - Google Patents

Deodorizing method and deodorizing device

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Publication number
JP3067089B2
JP3067089B2 JP7255506A JP25550695A JP3067089B2 JP 3067089 B2 JP3067089 B2 JP 3067089B2 JP 7255506 A JP7255506 A JP 7255506A JP 25550695 A JP25550695 A JP 25550695A JP 3067089 B2 JP3067089 B2 JP 3067089B2
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JP
Japan
Prior art keywords
mist
tank
deodorant
air
atomized
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP7255506A
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Japanese (ja)
Other versions
JPH08280785A (en
Inventor
安経 三原
Original Assignee
安経 三原
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Publication date
Application filed by 安経 三原 filed Critical 安経 三原
Priority to JP7255506A priority Critical patent/JP3067089B2/en
Priority to TW084109853A priority patent/TW290459B/en
Priority to KR1019950036736A priority patent/KR100355355B1/en
Publication of JPH08280785A publication Critical patent/JPH08280785A/en
Application granted granted Critical
Publication of JP3067089B2 publication Critical patent/JP3067089B2/en
Anticipated expiration legal-status Critical
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Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L9/00Disinfection, sterilisation or deodorisation of air
    • A61L9/14Disinfection, sterilisation or deodorisation of air using sprayed or atomised substances including air-liquid contact processes
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L9/00Disinfection, sterilisation or deodorisation of air
    • A61L9/015Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone
    • A61L9/04Disinfection, sterilisation or deodorisation of air using gaseous or vaporous substances, e.g. ozone using substances evaporated in the air without heating
    • A61L9/12Apparatus, e.g. holders, therefor
    • A61L9/122Apparatus, e.g. holders, therefor comprising a fan
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05BSPRAYING APPARATUS; ATOMISING APPARATUS; NOZZLES
    • B05B17/00Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups
    • B05B17/04Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods
    • B05B17/06Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations
    • B05B17/0607Apparatus for spraying or atomising liquids or other fluent materials, not covered by the preceding groups operating with special methods using ultrasonic or other kinds of vibrations generated by electrical means, e.g. piezoelectric transducers
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2209/00Aspects relating to disinfection, sterilisation or deodorisation of air
    • A61L2209/10Apparatus features
    • A61L2209/11Apparatus for controlling air treatment
    • A61L2209/111Sensor means, e.g. motion, brightness, scent, contaminant sensors
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2209/00Aspects relating to disinfection, sterilisation or deodorisation of air
    • A61L2209/10Apparatus features
    • A61L2209/13Dispensing or storing means for active compounds
    • A61L2209/132Piezo or ultrasonic elements for dispensing
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61LMETHODS OR APPARATUS FOR STERILISING MATERIALS OR OBJECTS IN GENERAL; DISINFECTION, STERILISATION OR DEODORISATION OF AIR; CHEMICAL ASPECTS OF BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES; MATERIALS FOR BANDAGES, DRESSINGS, ABSORBENT PADS OR SURGICAL ARTICLES
    • A61L2209/00Aspects relating to disinfection, sterilisation or deodorisation of air
    • A61L2209/20Method-related aspects
    • A61L2209/21Use of chemical compounds for treating air or the like
    • A61L2209/211Use of hydrogen peroxide, liquid and vaporous

Landscapes

  • Health & Medical Sciences (AREA)
  • Epidemiology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)
  • Special Spraying Apparatus (AREA)

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】この発明は消臭方法及び消臭
装置に関し、特に消臭液の超微粒子ミスト浴によって着
衣や部屋内をべたつかせることなく分解消臭するように
した方法及び装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a deodorizing method and a deodorizing apparatus, and more particularly to a method and an apparatus for eliminating odors by using an ultra-fine mist bath of a deodorizing liquid without sticking clothes or a room.

【0002】[0002]

【従来の技術】病院、パチンコ店、焼き肉店等、着衣に
着いた臭いや部屋内の臭いを脱臭又は消臭する必要のあ
る所は多い。しかしながら、現在の消臭方法には着衣や
部屋内に芳香剤を吹き付ける方法、着衣や部屋内にオゾ
ン空気流を吹き付ける方法等、があるが、前者は発臭成
分がそのまま残留するため、消臭効果は小さく、後者は
十分な消臭を行う濃度は人体に悪影響を与える。そこ
で、従来の消臭方法に代え、手軽にかつ安善に着衣の脱
臭又は消臭を行うことができる方法や装置が望まれてい
る。2. Description of the Related Art There are many places such as hospitals, pachinko parlors, barbecue shops, etc. where it is necessary to deodorize or deodorize the smell on clothes and the smell in the room. However, current deodorizing methods include a method of spraying an air freshener into clothes and a room, and a method of blowing ozone air flow into clothes and a room.The former method uses a deodorant because the odorous component remains as it is. The effect is small, the latter having sufficient deodorizing concentration has a bad effect on the human body. Therefore, instead of the conventional deodorizing method, a method and apparatus that can easily and comfortably deodorize or deodorize clothes have been desired.

【0003】[0003]

【発明が解決しようとする課題】本発明者は消臭方法に
ついて種々検討したところ、植物エキスを118種類混
合した商品名F118の100〜500倍希釈という極
めて薄い濃度の水溶液を使用し、約3ミクロン程度以下
の超微粒子にミスト化し、5〜15ml/m3 のミストを含
む消臭空間を形成すると、森林浴を受けている快い芳香
があるだけでなく、臭い成分が速やかに分解されて消臭
する効果があることを見い出した。The inventor of the present invention has conducted various studies on the deodorizing method. As a result, an aqueous solution having a very low concentration of 100 to 500 times that of a brand name F118 obtained by mixing 118 kinds of plant extracts was used. When mist is formed into ultra-fine particles of about micron or less, and a deodorant space containing mist of 5 to 15 ml / m 3 is formed, not only there is a pleasant fragrance that has been subjected to forest bathing, but also odor components are quickly decomposed and deodorized. Has been found to be effective.

【0004】本発明は、F118に代表される植物エキ
ス混合消臭剤の希釈液を用いて着衣や部屋等を手軽にか
つ安全に消臭できるようにした消臭方法及び消臭装置を
提供することを課題とする。[0004] The present invention provides a deodorizing method and a deodorizing apparatus which can easily and safely deodorize clothes and rooms by using a diluent of a plant extract mixed deodorant represented by F118. That is the task.

【0005】[0005]

【課題を解決するための手段】そこで、本発明に係る消
臭方法は、雰囲気中の発臭成分を分解消臭する方法であ
って、発臭成分を分解消臭しうる消臭剤の水溶液を超音
波発振にてミストに霧化し、超音波発振による霧化ミス
トを乗せた空気流を下方を向けて配置された超微粒子選
択プレートに当て、3ミクロンを越える粗粒子ミストを
自重にて落下させて空気流から除去することにより、
化ミストから3ミクロン以下の超微粒子ミストを選択し
て空気流とともに消臭すべき雰囲気中に吹き込むように
したことを特徴とする。Therefore SUMMARY OF THE INVENTION The deodorizing method according to the present invention is a method for dividing eliminate odor the Hatsushu components in the atmosphere, minute eliminated Kusashi cormorants Ru deodorant the Hatsushu component Atomization of aqueous solution into mist by ultrasonic oscillation, atomization mistake by ultrasonic oscillation
Ultra-fine particle selection with the air flow carrying
Mist over 3 microns
By dropping under its own weight and removing from the air stream, an ultrafine mist of 3 microns or less is selected from the atomized mist and blown into the atmosphere to be deodorized together with the air stream.

【0006】超音波発振による霧化ミストをそのまま消
臭すべき雰囲気に吹き込んだ場合、雰囲気の湿度や気温
等の条件によっては粗粒子スミトが肌や着衣、あるいは
壁面に付着してベタツキが起こるので、3ミクロン以下
の超微粒子ミストを空気流とともに雰囲気に吹き込むよ
うにしている。ところで、超音波発振によって3ミクロ
ン以下の超微粒子を直接霧化させる方法も考えられる
が、その場合には霧化槽の液面変動に起因する粒子径の
バラツキ等もあって超音波発振の制御が非常に煩雑とな
る。そこで、超音波発振にて所定粒径、例えば4〜5ミ
クロン程度の微粒子に霧化し、霧化ミストから3ミクロ
ン以下の超微粒子ミストを選択するようにしている。[0006] If the atomization mist by ultrasonic oscillation is blown into the atmosphere to be deodorized as it is, depending on the humidity, temperature and other conditions of the atmosphere, coarse particle mist adheres to the skin, clothes, or the wall surface, causing stickiness. Ultrafine mist of 3 microns or less is blown into the atmosphere together with the air flow. By the way, a method of directly atomizing ultra-fine particles of 3 microns or less by ultrasonic oscillation is also conceivable. In this case, however, there is a variation in the particle diameter due to fluctuations in the liquid level of the atomizing tank, etc. Is very complicated. In view of this, ultrasonic oscillation is used to atomize into fine particles having a predetermined particle size, for example, about 4 to 5 microns, and an ultrafine particle mist of 3 microns or less is selected from the atomized mist.

【0007】微粒子ミストの選択は、超音波発振による
霧化ミストを乗せた空気流を下方を向けて配置された微
粒子選択プレートに当て、3ミクロンを越える粗粒子霧
化ミストを自重で落下させて空気流から除去するように
してもよく、又超音波発振による霧化ミストを適当な流
速の空気流で吸引し、粗粒子ミストは自重によって空気
流に到達させずに、1ミクロン以下の極超微粒子ミスト
のみを空気流に乗せるようにしてもよい。[0007] The selection of the fine particle mist is performed by applying an air flow carrying the atomized mist by ultrasonic oscillation to a fine particle selection plate arranged downward, and causing the coarse particle atomized mist exceeding 3 microns to fall by its own weight. It may be removed from the air flow, and the atomization mist generated by the ultrasonic oscillation is sucked by an air flow of an appropriate flow rate, and the coarse particle mist is not allowed to reach the air flow by its own weight, but is not more than 1 micron. Only the fine particle mist may be carried on the air flow.

【0008】着衣等に付着した発臭成分を分解消臭する
場合、空気流に乗せた3ミクロン以下の超微粒子ミスト
をエアカーテンで出入口を遮断された雰囲気上方から吹
き込み、雰囲気内でミスト浴を受けるようにするのがよ
い。この場合、ミスト浴を受けていることを実感できる
ように、2〜3ミクロンの超微粒子が好ましい。In order to eliminate odor components adhering to clothes, etc., an ultrafine mist of 3 μm or less placed in an air stream is blown from above the atmosphere whose entrance is blocked by an air curtain, and a mist bath is formed in the atmosphere. It is good to receive. In this case, ultrafine particles of 2 to 3 microns are preferable so that the user can feel that they are receiving a mist bath.

【0009】植物エキス混合消臭液(商品名F118)
を希釈水で100〜500倍に希釈した消臭剤水溶液を
使用する場合、雰囲気内ミスト濃度を5〜15ml/m3
するのが好ましい。[0009] Deodorant liquid mixed with plant extract (trade name: F118)
When an aqueous deodorant solution is used, which is diluted 100 to 500 times with diluted water, the mist concentration in the atmosphere is preferably 5 to 15 ml / m 3 .

【0010】また、本発明に係る消臭装置は、出入口が
エアカーテンで遮断され、着衣した人間が起立しうる寸
法を有する処理室と、消臭剤水溶液を貯留する貯槽と、
貯槽の消臭剤水溶液がポンプ手段によって供給されると
ともに、供給された消臭剤水溶液を超音波発振によって
霧化する霧化槽と、一端が霧化槽の所定液面に、他端が
貯槽に連通され、霧化槽のオーバーフロー消臭剤水溶液
を貯槽に還流させて霧化槽を所定液面に保持するオーバ
ーフロー管と、ファンから供給される所定の空気流を超
音波発振によって霧化される霧化槽の主要液面に向けて
案内し、霧化槽から霧化飛散するミストを実質的に凝集
させることなく空気流に乗せる混合槽と、処理室の天井
部又はその近傍に開口し、混合槽と連通してミスト空気
流を処理室に上方から供給する吹出口と、処理室内の人
間を検知し、ポンプ手段、超音波発振器、シロッコファ
ン及びエアカーテンの形成手段を作動させる制御装置と
を備えたことを特徴とする。Further, the deodorizing apparatus according to the present invention has a processing chamber having an opening / closing port shut off by an air curtain and having a dimension that allows a person wearing clothes to stand up; a storage tank for storing an aqueous deodorant solution;
The deodorant aqueous solution in the storage tank is supplied by the pump means, and the supplied deodorant aqueous solution is atomized by ultrasonic oscillation. One end is at a predetermined liquid level of the atomization tank, and the other end is the storage tank. The overflow pipe of the overflow deodorant solution in the atomization tank is returned to the storage tank to hold the atomization tank at a predetermined liquid level, and the predetermined air flow supplied from the fan is atomized by ultrasonic oscillation. A mixing tank that guides toward the main liquid level of the atomization tank and places the mist that is sprayed and scattered from the atomization tank on the air flow without substantially coagulating, and an opening at or near the ceiling of the processing chamber A control unit that communicates with the mixing tank and supplies a mist airflow to the processing chamber from above, and detects a person in the processing chamber and activates a pump unit, an ultrasonic oscillator, a sirocco fan, and an air curtain forming unit. And that To.

【0011】超音波発振による霧化ミストから3ミクロ
ン以下の超微粒子ミストを選択する場合、混合槽内に超
微粒子選択プレートを上下方向の所定高さにて霧化槽の
主要液面に対面して空気流の流れを規制するように設
け、霧化ミストの乗った空気流を超微粒子選択プレート
に当てて3ミクロンを越える粗微粒子を自重で落下させ
て空気流から除去し、微粒子ミストを選択するのがよ
い。When selecting an ultra-fine particle mist of 3 μm or less from the atomization mist caused by the ultrasonic oscillation, the ultra-fine particle selection plate is placed in the mixing tank at a predetermined vertical height to face the main liquid surface of the atomization tank. The air flow with the atomized mist is applied to the ultra fine particle selection plate, and coarse particles exceeding 3 microns are dropped by its own weight and removed from the air flow to select the fine particle mist. Good to do.

【0012】また、本発明に係る消臭装置は、上方部分
に空気吹出口を有するハウジングと、ハウジング内に収
納され、消臭剤水溶液を貯留し、下端に消臭剤水溶液の
供給口を有する密閉構造の貯槽と、ハウジング内下方に
収納され、貯槽の供給口が所定液面高さに配置されて貯
槽から消臭剤水溶液が所定液面に自然供給され、供給さ
れた消臭剤水溶液を超音波発振によって霧化する霧化槽
と、ハウジング内の空気吹出口の背後に設けられ、空気
吹出口に向けて空気を送給するファンと、ハウジング内
に設けられ、霧化槽の主要液面と空気吹出口とに連通
し、周壁が上方に向けて横断面積を減少させるように傾
斜されて霧化槽(114) の液面から飛散する飛沫を当てて
自重にて落下させる一方、霧化槽から霧化飛散するミス
トをファンの空気流にて吸引させて実質的に凝集させる
ことなく、1ミクロン以下の極超微粒子ミストを空気流
に乗せるガイド槽と、超音波発振器及びファンを作動さ
せる制御装置とを備えたことを特徴とする。Further, the deodorizing apparatus according to the present invention has a housing having an air outlet at an upper portion, a deodorant aqueous solution stored in the housing, and a supply port for the deodorant aqueous solution at a lower end. A storage tank having a closed structure and housed below the housing, the supply port of the storage tank is arranged at a predetermined liquid level, and the deodorant aqueous solution is naturally supplied to the predetermined liquid level from the storage tank, and the supplied deodorant aqueous solution is supplied. An atomization tank that is atomized by ultrasonic oscillation, a fan that is provided behind the air outlet in the housing and supplies air toward the air outlet, and a main liquid that is provided in the housing and is provided in the housing. Surface and the air outlet, and the peripheral wall is inclined upward to reduce the cross-sectional area.
Apply the splash that is inclined and scatters from the liquid level of the atomization tank (114).
A guide tank that allows the ultra-fine particle mist of 1 micron or less to be placed on the air flow without causing it to fall under its own weight, and causing the mist that is atomized and scattered from the atomization tank to be sucked by the airflow of the fan and substantially agglomerated. , An ultrasonic oscillator and a control device for operating the fan.

【0013】超音波発振による霧化ミストはファンから
の空気流によって1ミクロン以下の極超微粒子ミストの
みが吸引されて空気流に乗るが、希釈液の液面からの飛
沫が上方まで飛散すると、飛沫が空気流に乗ってしまう
おそれがある。そこで、ガイド室の周壁を上方に向けて
槽断面積を減少させるように傾斜させ、飛沫は周壁に当
てて自重で落下させるのが好ましい。[0013] The atomization mist by the ultrasonic oscillation only sucks the ultra-fine particle mist of 1 micron or less by the air flow from the fan and rides on the air flow. When the droplet of the diluent from the liquid surface scatters upward, There is a risk that the droplets will get on the airflow. Therefore, it is preferable that the peripheral wall of the guide chamber is inclined upward so as to reduce the cross-sectional area of the tank, and the droplets fall against the peripheral wall by their own weight.

【0014】[0014]

【作用及び発明の効果】消臭剤としてF118を使用す
る場合、市販されるものを100〜500倍に希釈する
と、森林浴の芳香を発する。しかも、そのミストを3ミ
クロン以下、好ましくは1ミクロン以下とすると、5〜
15ml/m3 の濃度で着衣の発臭成分や部屋内の発臭成分
を迅速に分解する。その分解速度は30秒前後である。
従って、かかる濃度のミストを気流に乗せて消臭すべき
雰囲気に投入すると、森林浴を浴びながら手軽に着衣や
雰囲気内の消臭を行うことができる。When F118 is used as a deodorant, when a commercially available product is diluted 100 to 500 times, it emits the aroma of a forest bath. Moreover, if the mist is 3 μm or less, preferably 1 μm or less,
At a concentration of 15 ml / m 3 , odor components in clothes and odor components in the room are rapidly decomposed. Its decomposition rate is around 30 seconds.
Therefore, when the mist having such a concentration is put into an atmosphere to be deodorized by being placed in an air current, clothes and deodorization in the atmosphere can be easily performed while taking a forest bath.

【0015】消臭剤水溶液をミスト化し、5〜15ml/m
3 の濃度のミスト空気流を形成するには、消臭剤水溶液
を超音波発振によって霧化し、霧化ミストを空気流に乗
せ、又は空気流に吸引させて空気流に乗せる。霧化ミス
トが3ミクロンを越える粗粒子ミストを含む場合、雰囲
気内の湿度や温度等によって肌、着衣、雰囲気の壁面等
に付着してベタツキが起こりやすいが、3ミクロン以下
の超微粒子ミスト、好ましくは1ミクロン以下の極超微
粒子ミストを選択して空気流に乗せると、霧化ミストの
乗った空気流自体もサラッと乾燥した感じを与え、しか
も肌、着衣、雰囲気の壁面等にベタツキが発生すること
もない。[0015] The deodorant aqueous solution is converted into a mist, and 5 to 15 ml / m
In order to form a mist air stream having a concentration of 3 , the deodorant aqueous solution is atomized by ultrasonic oscillation, and the atomized mist is put on the air stream or sucked into the air stream and put on the air stream. When the atomization mist contains coarse particle mist of more than 3 microns, stickiness tends to occur on the skin, clothes, wall of the atmosphere, etc. due to the humidity and temperature in the atmosphere, but ultrafine mist of 3 microns or less, preferably When the ultra-fine particle mist of 1 micron or less is selected and put in the air flow, the air flow itself with the atomized mist also gives a smooth and dry feeling, and stickiness occurs on the skin, clothes, atmosphere walls, etc. Nothing to do.

【0016】請求項7記載の消臭装置では、処理室の出
入口がエアカーテンで遮断されるので、解放感を与え、
しかも処理室に充満されるミストが外気から遮断され、
処理効率に優れる。処理室内に人間が入り、これが検知
されると、制御装置によってポンプ手段、超音波発振
器、ファン及びエアカーテンの形成手段が作動され、超
音波発振による消臭剤水溶液の霧化、霧化ミストの空気
流への乗せ、所定濃度のミスト空気流の処理室への供給
等、必要な動作が行われ、手軽に着衣消臭のためのミス
ト浴を受けることができる。制御装置は赤外線などの光
検知手段を備え、処理室内への人間の出入りを検知して
上記の動作を行わせるとともに、必要な処理時間、その
作動を保持し、所定時間が経過すると停止させる。In the deodorizing device according to the present invention, since the entrance and exit of the processing chamber are shut off by the air curtain, a feeling of release is provided.
Moreover, the mist filled in the processing chamber is shut off from the outside air,
Excellent processing efficiency. When a person enters the processing chamber and this is detected, the pump unit, the ultrasonic oscillator, the fan, and the air curtain forming unit are operated by the control device, and atomization of the deodorant aqueous solution by the ultrasonic oscillation and generation of the atomized mist are performed. Necessary operations, such as putting on an air stream and supplying a mist air stream of a predetermined concentration to a treatment chamber, are performed, and a mist bath for deodorizing clothes can be easily received. The control device is provided with a light detecting means such as an infrared ray, and detects the entry and exit of a person into and from the processing chamber to perform the above-described operation, keeps a necessary processing time and operation, and stops the operation after a predetermined time elapses.

【0017】請求項9記載の消臭装置では、貯槽の供給
口から霧化槽に消臭剤水溶液が自然供給されて霧化槽が
所定液面に保持されており、制御装置にてファン及び超
音波発振器が作動されると、空気吹出口に向けて空気が
供給される一方、霧化槽の消臭剤水溶液が超音波発振に
て霧化され、霧化ミストのうち、超微粒子ミストのみが
ファンからの空気流にて吸引されて空気流に乗り、空気
吹出口から雰囲気に吹き出され、ミスト浴雰囲気を形成
できる。In the deodorizing apparatus according to the ninth aspect, the deodorant aqueous solution is naturally supplied to the atomizing tank from the supply port of the storage tank, and the atomizing tank is held at a predetermined liquid level. When the ultrasonic oscillator is activated, air is supplied toward the air outlet, and the aqueous solution of the deodorant in the atomization tank is atomized by ultrasonic oscillation. Is sucked by the airflow from the fan, rides on the airflow, and is blown out to the atmosphere from the air outlet to form a mist bath atmosphere.

【0018】従って、本発明によれば、短時間で簡単に
消臭が可能である。しかも、F118の超微粒子が臭い
成分だけを分解して消臭するので、体や衣服、雰囲気内
はそのまま爽やかになり、しかも森林浴を浴びた新鮮な
気分になる。その結果、薬品臭等の病院特有の臭い、工
場等の作業中の臭い、遊技場のタバコの臭いを簡単に消
すことができる。Therefore, according to the present invention, deodorization can be easily performed in a short time. In addition, since the ultrafine particles of F118 decompose and deodorize only odorous components, the body, clothes, and the atmosphere are refreshed as they are, and the fresh feeling of taking a forest bath is obtained. As a result, it is possible to easily eliminate hospital-specific odors such as chemical odors, odors during operations in factories and the like, and odors of cigarettes in a game arcade.

【0019】[0019]

【発明の実施の形態】以下、本発明を添付図面に示す具
体例に基づいて詳細に説明する。図1は本発明の一実施
例による消臭装置の全体を示す斜視図である。図におい
て、処理室を構成するブース1は一人の人間が立つこと
のできる寸法を有するほぼ円筒形をなし、前方には出入
口11が形成されている。出入口11の天井部にはエア
カーテン13のための空気流を供給するブロア(エアカ
ーテンの形成手段)が内蔵され、円弧状をなすスリット
12から下方に空気が吹き出されてエアカーテン13が
形成されるようになっている。ブース1の内部前面には
スモークミラー14が設けられ、その上部にはF118
希釈液ミストが空気流に乗って吹き出される吹出口15
が形成されている。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to specific examples shown in the accompanying drawings. FIG. 1 is a perspective view showing an entire deodorizing apparatus according to one embodiment of the present invention. In the drawing, a booth 1 constituting a processing chamber has a substantially cylindrical shape having a size that allows one person to stand, and an entrance 11 is formed in the front. A blower (air curtain forming means) for supplying an air flow for the air curtain 13 is built in the ceiling of the entrance 11, and the air is blown downward from the arc-shaped slit 12 to form the air curtain 13. It has become so. A smoke mirror 14 is provided on the inside front surface of the booth 1, and an F118
An outlet 15 from which the diluent mist is blown out in an air flow
Are formed.

【0020】ブース1内の下方には両開き扉16が設け
られ、内部には光センサー(図示せず)の信号を受けて
作動するミスト空気流の吹出機構が内蔵されている。こ
のミスト空気流の吹出機構は図2に示すように構成され
る。即ち、貯槽2内にはF118を所定の希釈率で希釈
した液(消臭剤水溶液)が貯留されており、貯槽2の希
釈液はポンプ手段3によって液供給ホース31を経て上
方に位置する霧化槽4に供給されるようになっている。
霧化槽4の所定液面にはオーバーフロー管5の一端が開
口され、オーバーフロー管5の他端は貯槽2に連通され
ており、霧化槽4の希釈液面が所定のレベルを越えると
霧化槽4から貯槽2に希釈液が還流され、霧化槽4内の
液面が所定のレベルに維持されるようになっている。A double door 16 is provided in the lower part of the booth 1, and a mist air flow blowing mechanism which operates in response to a signal from an optical sensor (not shown) is built in the inside. The mist air flow blowing mechanism is configured as shown in FIG. That is, a liquid (deodorant aqueous solution) obtained by diluting F118 at a predetermined dilution rate is stored in the storage tank 2, and the diluting liquid in the storage tank 2 is sprayed by the pump unit 3 via the liquid supply hose 31 into the mist located above. It is supplied to the chemical tank 4.
One end of an overflow pipe 5 is opened at a predetermined liquid level of the atomizing tank 4, and the other end of the overflow pipe 5 is connected to the storage tank 2. When the diluting liquid level of the atomizing tank 4 exceeds a predetermined level, the atomization is performed. The diluent is recirculated from the atomizing tank 4 to the storage tank 2, and the liquid level in the atomizing tank 4 is maintained at a predetermined level.

【0021】霧化槽4の底部には超音波発振器41が設
けられ、霧化槽4の上方には混合槽6が希釈液面と連通
して設けられ、混合槽6のほぼ中央側方にはシロッコフ
ァン61が取付けられ、シロッコファン61の前方には
小径の通過口を有する加速プレート63が設けられてシ
ロッコファン61からの空気流の流速が加速されるよう
になっている。これによってシロッコファン61を最大
容量で作動させずとも十分な量及び速度の空気流を安定
に供給でき、小型のシロッコファン61を使用して装置
の静粛性を向上できるとともに、電気の使用量を軽減で
きる。シロッコファン61は制御装置7に接続された風
量調整器62によって霧化槽6からの霧化量に応じて適
正な送風量に調整できるようになっている。An ultrasonic oscillator 41 is provided at the bottom of the atomizing tank 4, and a mixing tank 6 is provided above the atomizing tank 4 so as to communicate with the diluent level. A sirocco fan 61 is mounted, and an acceleration plate 63 having a small-diameter passage port is provided in front of the sirocco fan 61 so that the flow velocity of the air flow from the sirocco fan 61 is accelerated. As a result, a sufficient amount and speed of air flow can be supplied stably without operating the sirocco fan 61 at the maximum capacity, the quietness of the device can be improved by using the small sirocco fan 61, and the amount of electricity used can be reduced. Can be reduced. The sirocco fan 61 can be adjusted to an appropriate amount of air to be blown according to the amount of atomization from the atomization tank 6 by an air volume regulator 62 connected to the control device 7.

【0022】加速された空気流は下方の希釈液の液面方
向に案内された後、吹出口15に向けて流れるようにな
っており、霧化槽4から霧化飛散するミストは空気流に
乗って吹出口15に供給される。消臭剤の希釈液は超音
波発振により容易に約10ミクロン以下の粒子からなる
ミストとして形成できるが、このミストが発生する液面
に空気流を直接送風すると、ミストは凝集しやすいの
で、ミストを空気流に乗せて送り出す形式が好ましい。After the accelerated air flow is guided in the direction of the liquid level of the diluent below, it flows toward the blow-out port 15, and the mist scattered and atomized from the atomization tank 4 is converted into an air flow. It is supplied to the outlet 15 by riding. The deodorant diluent can be easily formed as a mist composed of particles of about 10 μm or less by ultrasonic oscillation. However, if an air stream is directly blown on the surface of the liquid where the mist is generated, the mist is easily aggregated. Is preferably sent out in an air stream.

【0023】また、混合槽6のほぼ中央には超微粒子選
択プレート65が混合槽6の横断面積を減少させるよう
に下方を向けて配置され、希釈液面側から上昇する空気
流が超微粒子選択プレート65に当たって希釈液面から
の飛沫及び5ミクロンを越える粗粒子ミストが自重で落
下して空気流から除去されるようになっている。An ultra-fine particle selection plate 65 is disposed substantially at the center of the mixing tank 6 so as to reduce the cross-sectional area of the mixing tank 6, and an air flow rising from the diluting liquid surface side is used to select the ultra-fine particles. The droplets from the diluent surface and the coarse particle mist exceeding 5 microns fall on the plate 65 by their own weight and are removed from the air flow.

【0024】ブース1の天井部又はその近傍に開口する
吹出口15は混合槽6の上方と連通され、霧化ミストの
乗った空気流をブース1内にその上方から供給するよう
になっている。An outlet 15 opening at or near the ceiling of the booth 1 is communicated with the upper part of the mixing tank 6 to supply the air flow carrying the atomizing mist into the booth 1 from above. .

【0025】ブース1に人間が入ると光センサー8がそ
れを検知し、制御装置7が設定された処理時間の間、ポ
ンプ手段3、超音波発振器41、シロッコファン61及
びエアカーテン13のブロアを作動させる。When a human enters the booth 1, the optical sensor 8 detects it, and the controller 7 controls the pump means 3, the ultrasonic oscillator 41, the sirocco fan 61 and the blower of the air curtain 13 for a set processing time. Activate.

【0026】すると、スリット12から空気流が吹き出
されてエアカーテン13を形成されてブース1の出入口
11が外気から遮断され、又ポンプ手段3によって貯槽
2から消臭剤であるF118の水溶液が霧化槽4に供給
される。また、シロッコファン61から空気が供給さ
れ、加速プレート63の通過口が通過面積を絞られるこ
とによっで加速されて混合槽6に送られる。霧化槽4内
のF118水溶液は超音波発振器41によって霧化さ
れ、霧化したF118水溶液はミスト状になって空気流
に乗って上昇し、超微粒子選択プレート65に当たって
希釈液面からの飛沫及び3ミクロンを越える粗粒子ミス
トが自重で落下して空気流から除去され、3ミクロン以
下の超微粒子ミストのみが乗った空気流が吹出口15か
らブース1内に上方から吹き出され、出入口11はエア
カーテン13によって遮蔽されているので、ブース1内
は消臭剤水溶液のミストが充満する。このF118ミス
トによる着衣の消臭はおよそ30秒前後で終了するの
で、所定時間が経過すると、ポンプ手段3、超音波発振
器41、シロッコファン61及びエアカーテン13のブ
ロアが停止される。Then, an air flow is blown out of the slit 12 to form an air curtain 13, the entrance 11 of the booth 1 is shut off from the outside air, and the aqueous solution of the deodorant F118 is sprayed from the storage tank 2 by the pump means 3. It is supplied to the chemical tank 4. Further, air is supplied from the sirocco fan 61, and the air is accelerated by the passage area of the accelerating plate 63 having a reduced passage area and sent to the mixing tank 6. The F118 aqueous solution in the atomization tank 4 is atomized by the ultrasonic oscillator 41, and the atomized F118 aqueous solution rises in the air stream in the form of a mist, hits the ultrafine particle selection plate 65, and splashes from the diluting liquid surface. Coarse particle mist exceeding 3 μm falls by its own weight and is removed from the air flow, and an air flow carrying only ultra-fine mist of 3 μm or less is blown out from the outlet 15 into the booth 1 from above, and the entrance 11 is provided with air. Since the booth 1 is shielded by the curtain 13, the mist of the deodorant aqueous solution is filled in the booth 1. Since the deodorization of the clothes by the F118 mist is completed in about 30 seconds, the pump means 3, the ultrasonic oscillator 41, the sirocco fan 61, and the blower of the air curtain 13 are stopped when a predetermined time has elapsed.

【0027】上述の構成において、霧化槽4の消臭剤水
溶液の霧化吐出量が26ml/minの場合にはミスト空気流
の吐出風量は1.9m3/minとするのが適当で、エアカー
テン風量は24m3/minに調整され、出入口を十分に遮断
することができる。In the above structure, when the atomization discharge amount of the aqueous deodorant solution in the atomization tank 4 is 26 ml / min, the discharge air amount of the mist air flow is suitably 1.9 m 3 / min. The air curtain air flow is adjusted to 24 m 3 / min, and the entrance can be sufficiently shut off.

【0028】対照(水)及びF118(株式会社ファイ
ン・ツー)の200倍希釈液を使用し、その1g脱脂綿
に浸し、におい袋(25×35cm、アレックス商会
製)に入れてヒートシールを施した後、窒素ベースのア
ンモニア、トリメチルアミン、トルエン(各約500p
pm)を封入し、これを室温で放置して0.5、1、
3、6及び24時間後にガス検知管(ガステック製)に
よって袋内の残存ガス濃度を測定した。アンモニア、ト
リメチルアミン、トルエンに対する消臭効果を試験する
と、アンモニアについては図3に、トリメチルアミンに
ついては図4に、トルエンについては図5に示すような
消臭効果を示した。Using a 200-fold diluted solution of the control (water) and F118 (Fine Two Co., Ltd.), dipped in 1 g of absorbent cotton, placed in an odor bag (25 × 35 cm, manufactured by Alex Shokai), and heat-sealed. , Nitrogen-based ammonia, trimethylamine, toluene (about 500p each)
pm) and leave it at room temperature for 0.5, 1,
After 3, 6, and 24 hours, the residual gas concentration in the bag was measured with a gas detector tube (manufactured by Gastec). When the deodorizing effects on ammonia, trimethylamine and toluene were tested, the deodorizing effects as shown in FIG. 3 for ammonia, in FIG. 4 for trimethylamine and in FIG. 5 for toluene were shown.

【0029】図6ないし図8は本発明の第2の実施例に
よる消臭装置を示す。図において、合成樹脂製ハウジン
グ100は平面ほぼ楕円形状をなし、その上面壁は着脱
自在に設けられ、又ハウジング100の正面壁には上方
部位に空気吹出口101が形成され、空気吹出口101
には整流羽根102が設けられている。ハウジング10
0の正面壁下方部位には給水、電源、設定時間、ミスト
霧化量の各表示ランプ103、104、105、106
及び電源、作動時間、ミスト霧化量の各スイッチ10
7、108、109がレイアウトされ、各表示ランプ1
03〜106及び各スイッチ107〜109は制御装置
(図示せず)に接続されている。FIGS. 6 to 8 show a deodorizing apparatus according to a second embodiment of the present invention. In the figure, a synthetic resin housing 100 has a substantially elliptical planar shape, an upper surface wall thereof is detachably provided, and an air outlet 101 is formed in an upper portion of a front wall of the housing 100.
Is provided with a rectifying blade 102. Housing 10
In the lower part of the front wall 0, display lamps 103, 104, 105, 106 for water supply, power supply, set time, and mist atomization amount are provided.
And each switch 10 for power supply, operation time and mist atomization amount
7, 108, 109 are laid out, and each display lamp 1
03 to 106 and the switches 107 to 109 are connected to a control device (not shown).

【0030】また、ハウジング100内には空気吹出口
101の背後にブロア110が配置され、ハウジング1
00の側部に形成されたスリット111から取り入れた
空気を空気吹出口101に向けて送給するようになって
いる。In the housing 100, a blower 110 is arranged behind the air outlet 101, and
The air taken in from a slit 111 formed on the side of the air outlet 00 is sent toward the air outlet 101.

【0031】ハウジング100内の側方部位には貯槽1
12が上方から取外し可能に設けられ、貯槽112は下
端に供給口113を有する密閉構造をなし、内部にはF
118を所定の希釈率で希釈した液(消臭剤水溶液)が
貯留されている。ハウジング100の下方部位には霧化
槽114が取付けられ、霧化槽114内には所定液面に
位置して貯槽112の供給口が位置され、霧化槽114
の液面が霧化にて低下した時に貯槽112の供給口11
3から希釈液が自然供給されて所定液面に保持されるよ
うになっている。The storage tank 1 is located at a side portion in the housing 100.
12 is provided detachably from above, the storage tank 112 has a closed structure having a supply port 113 at the lower end, and F
A liquid (deodorant aqueous solution) obtained by diluting 118 at a predetermined dilution rate is stored. An atomization tank 114 is attached to a lower portion of the housing 100, and a supply port of the storage tank 112 is positioned inside the atomization tank 114 at a predetermined liquid level.
The supply port 11 of the storage tank 112 when the liquid level of
The diluent is naturally supplied from 3 and is maintained at a predetermined liquid level.

【0032】霧化槽114の側方にはフロート115が
設けられ、貯槽112内の希釈液が空となり、霧化槽1
14が所定液面以下に低下したことを検知して給水ラン
プ103が点灯して貯槽112への希釈液の給水を知ら
せるようになっている。霧化槽114の底部には超音波
発振器116が取付けられ、霧化槽114内の希釈液を
約5ミクロン以下のミストに霧化飛散させるようになっ
ている。A float 115 is provided beside the atomizing tank 114, and the diluting liquid in the storage tank 112 becomes empty.
The water supply lamp 103 is turned on upon detecting that the pressure of the diluent 14 has dropped below the predetermined liquid level, thereby notifying the supply of the diluent to the storage tank 112. An ultrasonic oscillator 116 is attached to the bottom of the atomization tank 114 so that the diluent in the atomization tank 114 is atomized and scattered to a mist of about 5 microns or less.

【0033】霧化槽114の上方にはガイド槽117が
取付けられ、ガイド槽117は上下方向に延びる筒状を
なし、下端は霧化槽114の液面に連通され、上端は空
気吹出口101に連通され、超音波発振による霧化ミス
トのうち、1ミクロン以下の極超微粒子ミストのみがブ
ロア110からの送風にて吸引されて空気流に乗るよう
になっている。また、ガイド槽117の背面壁は横断面
積を減少するように傾斜され、霧化槽114の液面から
の飛沫を受けて落下させるようになっている。A guide tank 117 is mounted above the atomizing tank 114. The guide tank 117 has a cylindrical shape extending in the vertical direction. The lower end is communicated with the liquid level of the atomizing tank 114, and the upper end is the air outlet 101. , And among the atomization mist by the ultrasonic oscillation, only the ultra-fine particle mist of 1 micron or less is sucked by the air blow from the blower 110 and rides on the air flow. Further, the rear wall of the guide tank 117 is inclined so as to reduce the cross-sectional area, so that the guide tank 117 receives droplets from the liquid surface of the atomization tank 114 and drops.

【0034】貯槽112がハウジング100内にセット
されると、その供給口113から霧化槽114内に希釈
液が供給され、霧化槽114が所定の液面になると、液
面の作用にて希釈液の供給が自動的に停止し、霧化槽1
14は所定液面に保持される。電源スイッチ107がO
Nされると、制御装置(図示せず)が設定された処理時
間の間、超音波発振器116及びブロア110を作動さ
せる。When the storage tank 112 is set in the housing 100, a diluting liquid is supplied from the supply port 113 into the atomization tank 114, and when the atomization tank 114 reaches a predetermined liquid level, the liquid level acts. The supply of diluent stops automatically and the atomization tank 1
14 is held at a predetermined liquid level. Power switch 107 is O
If N, a controller (not shown) activates the ultrasonic oscillator 116 and the blower 110 for a set processing time.

【0035】すると、霧化槽114内の希釈液が超音波
振動にて5ミクロン以下に霧化され、同時に飛沫が飛散
するが、飛沫はガイド槽117の傾斜壁面に当たって自
重によって液面に落下する。ガイド槽117の上方には
ブロア110からの送風にて空気が流れており、霧化ミ
ストは送風によって上方に吸引されるが、1ミクロン以
下の極超微粒子ミストのみがブロア110から空気吹出
口101への空気流に乗って外方の消臭すべき雰囲気中
に吹き出される。Then, the diluting liquid in the atomizing tank 114 is atomized to 5 μm or less by ultrasonic vibration, and at the same time, the splash scatters, but the splash hits the inclined wall surface of the guide tank 117 and drops to the liquid surface by its own weight. . Air is blown above the guide tank 117 by blowing air from the blower 110, and the atomized mist is sucked upward by the blowing, but only ultra-fine particle mist of 1 μm or less is blown from the air outlet 101 through the blower 110. The air is blown into the atmosphere to be deodorized on the outside.

【0036】貯槽112内の希釈液がなくなると、フロ
ート115によってそれが検知されて給水ランプ103
が点灯するので、貯槽112を取り出して希釈液を給水
すればよく、又設定時間は設定スイッチ108にて連
続、10分、20分、30分のいずれかに設定でき、又
ミスト量は切、弱、中、強の4段階に設定できる。When the diluting liquid in the storage tank 112 is exhausted, it is detected by the float 115 and the water supply lamp 103 is detected.
Is turned on, the storage tank 112 may be taken out and the diluent may be supplied, and the set time can be continuously set to 10 minutes, 20 minutes, or 30 minutes by the setting switch 108, and the mist amount is turned off. It can be set to four levels: weak, medium, and strong.

【図面の簡単な説明】[Brief description of the drawings]

【図1】 本発明の一実施例による消臭装置の全体を示
す斜視図である。FIG. 1 is a perspective view showing an entire deodorizing device according to an embodiment of the present invention.

【図2】 ミスト供給装置の構成図である。FIG. 2 is a configuration diagram of a mist supply device.

【図3】 本発明におけるアンモニアに対する消臭効果
の比較グラフを示す図である。FIG. 3 is a graph showing a comparative graph of a deodorizing effect on ammonia in the present invention.

【図4】 本発明におけるトリメチルアミンに対する消
臭効果の比較グラフを示す図である。FIG. 4 is a graph showing a comparison graph of the deodorizing effect on trimethylamine in the present invention.

【図5】 本発明におけるトルエンに対する消臭効果の
比較グラフを示す図てある。FIG. 5 is a graph showing a comparative graph of a deodorizing effect on toluene in the present invention.

【図6】 本発明の他の実施例による消臭装置を示す正
面図である。FIG. 6 is a front view showing a deodorizing device according to another embodiment of the present invention.

【図7】 上記消臭装置を示す正面断面構成図である。FIG. 7 is a front sectional configuration diagram showing the deodorizing device.

【図8】 上記消臭装置を示す側面断面構成図である。FIG. 8 is a side sectional configuration view showing the deodorizing device.

【符号の説明】[Explanation of symbols]

1 処理室 13 エアカーテ
ン 2 貯槽 3 ポンプ手段 4 霧化槽 5 オーバーフ
ロー管 6 混合槽 61 シロッコフ
ァン 7 制御装置 100 ハウジ
ング 101 空気吹出口 110 ブロア 112 貯槽 114 霧化槽 116 超音波発振器 117 ガイド
DESCRIPTION OF SYMBOLS 1 Processing room 13 Air curtain 2 Storage tank 3 Pump means 4 Atomization tank 5 Overflow pipe 6 Mixing tank 61 Sirocco fan 7 Control device 100 Housing 101 Air outlet 110 Blower 112 Storage tank 114 Atomization tank 116 Ultrasonic oscillator 117 Guide tank

Claims (7)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 雰囲気中の発臭成分を分解消臭する方法
であって、発臭成分を分解消臭しうる消臭剤水溶液を超
音波発振にてミストに霧化し、超音波発振による霧化ミ
ストを乗せた空気流を下方を向けて配置された超微粒子
選択プレートに当て、3ミクロンを越える粗粒子ミスト
を自重にて落下させて空気流から除去することにより、
霧化ミストから3ミクロン以下の超微粒子ミストを選択
して空気流とともに消臭すべき雰囲気中に吹き込むよう
にしたことを特徴とする消臭方法。1. A method for eliminating odorous components in an atmosphere, wherein the aqueous solution of the deodorant capable of eliminating and eliminating odorous components is atomized into a mist by ultrasonic oscillation, and the mist is generated by ultrasonic oscillation. Chemical
Ultra-fine particles arranged with the air flow with the strike facing downward
Coarse particle mist over 3 microns, applied to the selection plate
Is dropped by its own weight and removed from the airflow,
A deodorizing method characterized in that ultrafine mist of 3 microns or less is selected from atomized mist and is blown into an atmosphere to be deodorized together with an air flow. 【請求項2】 着衣等に付着した発臭成分を分解消臭す
る方法であって、発臭成分を分解消臭しうる消臭剤水溶
液を超音波発振にてミストに霧化し、霧化ミストから3
ミクロン以下の超微粒子ミストを選択して空気流ととも
エアカーテンで出入口を遮断された雰囲気上方から吹
き込み、雰囲気内でミスト浴を受けるようにしたことを
特徴とする消臭方法。 2. A method for eliminating odor components adhering to clothes and the like, comprising a deodorant solution capable of eliminating odor components.
The liquid is atomized into a mist by ultrasonic oscillation.
Select ultra-fine mist of submicron size and air flow
Blown from the upper atmosphere has been cut off entrance with air curtains, that it has to receive the mist bath in an atmosphere
Characteristic deodorant method. 【請求項3】 雰囲気中の発臭成分を分解消臭する方法
であって、発臭成分を分解消臭しうる消臭剤水溶液を超
音波発振にてミストに霧化し、超音波発振される消臭剤
水溶液の液面の上方に、周壁が上方に向けて横断面積を
減少させるように傾斜された筒状ガイド槽を設け、消臭
剤水溶液の液面から飛散する飛沫を筒状ガイド槽の傾斜
壁面に当てて自重にて落下させる一方、筒状ガイド槽の
上端開口を横切るように空気を流し、霧化ミストから1
ミクロン以下の極超微粒子ミストのみを吸引して空気流
とともに消臭すべき雰囲気中に吹き込むようにしたこと
を特徴とする消臭方法。 3. A method for eliminating odor components in an atmosphere by eliminating odor components.
It is more than deodorant aqueous solution that can eliminate odor components
Atomized into a mist by sonic oscillation, and the surrounding wall has a cross-sectional area facing upward above the liquid level of the aqueous solution of the deodorant, which is ultrasonically oscillated
Provide a slanted cylindrical guide tank to reduce odors
The inclination of the cylindrical guide tank for splashes scattered from the surface of the aqueous solution
While dropping by its own weight against the wall, air is passed across the upper end opening of the cylindrical guide tank, and 1
Air flow by sucking only ultra-fine particle mist smaller than micron
To blow into the atmosphere that should be deodorized
A deodorizing method characterized by the following . 【請求項4】 植物エキス混合消臭液(商品名F11
8)を希釈水で100〜500倍に希釈した消臭剤水溶
液を使用し、雰囲気内ミスト濃度を5〜15ml/m3 とし
た請求項1ないし3のいずれかに記載の消臭方法。 4. A deodorant solution mixed with a plant extract (trade name: F11)
8) using the deodorant aqueous solution diluted to 100-500-fold with dilution water, deodorizing method according to any one of claims 1 was 5-15 mL / m 3 atmosphere in mist concentration 3. 【請求項5】 出入口がエアカーテン(13)で遮断され、
着衣した人間が起立しうる寸法を有する処理室(1) と、 消臭剤水溶液を貯留する貯槽(2) と、 貯槽(2) の消臭剤水溶液がポンプ手段(3) によって供給
されるとともに、供給された消臭剤水溶液を超音波発振
によって霧化する霧化槽(4) と、 一端が霧化槽(4) の所定液面に、他端が貯槽(2) に連通
され、霧化槽(4) のオーバーフロー水溶液を貯槽(2) に
還流させて霧化槽(4) を所定液面に保持するオーバーフ
ロー管(5) と、 ファン(61)から供給される所定の空気流を超音波発振器
(41)によって霧化される霧化槽(4) の主要液面に向けて
案内し、霧化槽(4) から霧化飛散するミストを実質的に
凝集させることなく空気流に乗せる混合槽(6) と、 処理室(1) の天井部又はその近傍に開口し、混合槽(6)
と連通して霧化ミストの乗った空気流を処理室(1) に上
方から供給する吹出口(15)と、 処理室(1) 内の人間を検知し、ポンプ手段(3) 、超音波
発振器(41)、ファン(61)及びエアカーテン(13)の形成手
段を作動させる制御装置(7) とを備えたことを特徴とす
る消臭装置。 5. The doorway is blocked by an air curtain (13),
A treatment chamber (1) having dimensions that allow a person wearing clothes to stand up, a storage tank (2) for storing an aqueous deodorant solution, and an aqueous deodorant solution in the storage tank (2) are supplied by pump means (3). Atomizing tank (4) for atomizing the supplied deodorant aqueous solution by ultrasonic oscillation, one end is connected to a predetermined liquid level of the atomizing tank (4), and the other end is connected to the storage tank (2). The overflow solution in the atomization tank (4) is returned to the storage tank (2) to keep the atomization tank (4) at a predetermined liquid level. Ultrasonic oscillator
A mixing tank that guides toward the main liquid level of the atomization tank (4) atomized by (41) and puts the mist that is atomized and scattered from the atomization tank (4) into the air flow without substantially coagulating. (6) and an opening at or near the ceiling of the processing chamber (1), and a mixing tank (6)
An air outlet (15) that supplies the air flow carrying the atomized mist to the processing chamber (1) from above, and a human in the processing chamber (1) is detected, and the pump means (3) A deodorizing device comprising: a control device (7) for operating means for forming an oscillator (41), a fan (61) and an air curtain (13). 【請求項6】 混合槽(6) は、上下方向の所定高さにて
霧化槽(4) の主要液面に対面して空気流の流れを規制す
る超微粒子選択プレート(65)を有し、超音波発振による
霧化ミストを乗せた空気流を超微粒子選択プレート(65)
に当て、3ミクロンを越える粗粒子霧化ミストを自重に
て落下させて空気流から除去するようにしてなる請求項
記載の消臭装置。 6. The mixing tank (6) has an ultra-fine particle selection plate (65) that regulates the flow of the air flow at a predetermined height in the vertical direction so as to face the main liquid level of the atomization tank (4). Then, the air flow carrying the atomization mist by ultrasonic oscillation is transferred to the ultra-fine particle selection plate (65).
Wherein the coarse atomized mist exceeding 3 microns is dropped by its own weight and removed from the air stream.
5. The deodorizing device according to 5 . 【請求項7】 上方部分に空気吹出口(101) を有するハ
ウジング(100) と、 ハウジング(100) 内に収納され、消臭剤水溶液を貯留
し、下端に消臭剤水溶液の供給口(113) を有する密閉構
造の貯槽(112) と、 ハウジング(100) 内下方に収納され、貯槽(112) の供給
口(113) が所定液面高さに配置されて貯槽(112) から消
臭剤水溶液が所定液面まで自然供給され、供給された消
臭剤水溶液を超音波発振によって霧化する霧化槽(114)
と、 ハウジング(100) 内の空気吹出口(101) の背後に設けら
れ、空気吹出口(101)に向けて空気を送給するファン(11
0) と、 ハウジング(100) 内に上下方向に延びて設けられ、霧化
槽(114) の主要液面と空気吹出口(101) とに連通し、
壁が上方に向けて横断面積を減少させるように傾斜され
て霧化槽(114) の液面から飛散する飛沫を当てて自重に
て落下させる一 方、霧化槽(114) から霧化飛散するミス
トをファン(110) の空気流にて吸引させて実質的に凝集
させることなく、1ミクロン以下の極超微粒子ミストを
空気流に乗せるガイド槽(117) と、 超音波発振器(116) 及びファン(110) を作動させる制御
装置とを備えたことを特徴とする消臭装置。 7. A housing (100) having an air outlet (101) in an upper part, a housing (100) housed in the housing (100) for storing a deodorant aqueous solution, and a supply port (113) for a deodorant aqueous solution at a lower end. ), And a storage tank (112) which is housed below the housing (100), the supply port (113) of the storage tank (112) is arranged at a predetermined liquid level, and the deodorant is supplied from the storage tank (112). Atomization tank (114) in which the aqueous solution is naturally supplied to a predetermined liquid level and the supplied deodorant aqueous solution is atomized by ultrasonic oscillation
And a fan (11) provided behind the air outlet (101) in the housing (100) to supply air to the air outlet (101).
0), provided extending in the vertical direction in the housing (100), through the main liquid surface and dual air outlet (101) of Kirikaso (114), peripheral
The walls are sloped upward to reduce the cross-sectional area
To the weight of the spray tank from the liquid level in the atomization tank (114).
Hand to be dropped Te, Kirikaso (114) the mist atomized scattered from the fan (110) and sucked by airflow without substantially agglomeration of less than one micron ultra fine mist of air flow A deodorizing device comprising: a guide tank (117) to be mounted on a vehicle; and a control device for operating an ultrasonic oscillator (116) and a fan (110).
JP7255506A 1995-02-17 1995-09-06 Deodorizing method and deodorizing device Expired - Fee Related JP3067089B2 (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
JP7255506A JP3067089B2 (en) 1995-02-17 1995-09-06 Deodorizing method and deodorizing device
TW084109853A TW290459B (en) 1995-09-06 1995-09-20 Deodorizing method and deodorizing apparatus
KR1019950036736A KR100355355B1 (en) 1995-02-17 1995-10-24 Deodorizing method and deodorizing device

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
JP5360595 1995-02-17
JP7-53605 1995-02-17
JP7255506A JP3067089B2 (en) 1995-02-17 1995-09-06 Deodorizing method and deodorizing device

Publications (2)

Publication Number Publication Date
JPH08280785A JPH08280785A (en) 1996-10-29
JP3067089B2 true JP3067089B2 (en) 2000-07-17

Family

ID=26394317

Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Link
JP (1) JP3067089B2 (en)
KR (1) KR100355355B1 (en)

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JP2003083562A (en) * 2001-09-07 2003-03-19 Matsushita Electric Ind Co Ltd Air conditioner
KR100496882B1 (en) * 2001-10-19 2005-06-28 (주)수도프리미엄엔지니어링 Air shower system
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JP4550670B2 (en) * 2005-06-06 2010-09-22 リンナイ株式会社 Bathroom heater with mist function
AT513810B1 (en) * 2012-12-18 2015-02-15 Harald Ing Rauchenschwandtner A method and apparatus for deploying aqueous polymer-containing biocides in space by ultrasonic technology
JP2016034608A (en) * 2014-08-01 2016-03-17 株式会社シーメイダ Atomization solvent discharge device
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JP6133527B1 (en) * 2017-02-01 2017-05-24 有限会社 セイケン九州 Deodorization method
JP6756359B2 (en) * 2018-12-14 2020-09-16 ダイキン工業株式会社 Chemical spray device
CN113405206A (en) * 2021-06-29 2021-09-17 陕西呱呱蛙智能科技有限公司 Intelligent deodorizer

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JPH02209147A (en) * 1989-02-07 1990-08-20 Shimizu Corp Ultrasonic type scent generator
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Also Published As

Publication number Publication date
KR100355355B1 (en) 2002-12-26
KR960030953A (en) 1996-09-17
JPH08280785A (en) 1996-10-29

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