JPH06134025A - Aromatic device and diffusion of aromatic using the same - Google Patents
Aromatic device and diffusion of aromatic using the sameInfo
- Publication number
- JPH06134025A JPH06134025A JP4314081A JP31408192A JPH06134025A JP H06134025 A JPH06134025 A JP H06134025A JP 4314081 A JP4314081 A JP 4314081A JP 31408192 A JP31408192 A JP 31408192A JP H06134025 A JPH06134025 A JP H06134025A
- Authority
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- Japan
- Prior art keywords
- fragrance
- compound
- water
- exothermic
- aroma
- 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.)
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Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、家庭内で簡便に使用で
きる芳香器と当該芳香器を用いた香料の発散方法に関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aroma machine that can be conveniently used at home and a method for releasing a fragrance using the aroma machine.
【0002】[0002]
【従来の技術】近年、香りを漂わせて気分を安らかにし
て訪問客を迎える習慣が普及しつつある。例えば、その
一つとして香を焚く習慣がある。この方法は半密閉状の
容器内に香を収納したうえ、マッチやライター等により
点火して香を燃焼させるものであり、燃焼時の発熱によ
って、香に含まれる香気成分を気化させるものである。2. Description of the Related Art In recent years, the habit of welcoming visitors with a scent that makes them feel comfortable has become widespread. For example, one of them is the custom of burning incense. In this method, the incense is stored in a semi-sealed container, and the incense is burned by igniting it with a match or a lighter, and the aroma component contained in the incense is vaporized by the heat generated during combustion. .
【0003】また、その他の方法としてスプレー式の芳
香器を用いる方法がある。この芳香器は、液化ガスを香
料と共にスプレー缶内に封入したものであり、使用時に
はスプレーすることにより、液化ガスの気化と共に香料
成分を気化させるものである。Another method is to use a spray type fragrancer. This fragrancer is one in which a liquefied gas is enclosed in a spray can together with a fragrance, and is sprayed at the time of use to vaporize the liquefied gas and vaporize the fragrance component.
【0004】さらに、芳香器ではないものの、特開平2
−289257号には、芳香器への応用が可能な蒸散装
置の技術が開示されている。その装置は、外容器に内容
器を内装した概略構成を有し、外容器底部には加水によ
り発熱する発熱剤を収納し、前記外容器内空間の上部位
置に収容される内容器には、底面が破断性膜で形成さ
れ、薬剤を溶かし込んだ薬剤水溶液を収納した構成であ
る。そして、使用に際しては内容器底面の破断性膜を破
ることにより発熱剤に薬剤水溶液を散布し、これにより
発熱反応を起こさせて薬剤を蒸散させるものである。Further, although it is not an aroma device, it is disclosed in Japanese Patent Laid-Open No.
No. 289257 discloses a technique of a transpiration device which can be applied to an aroma device. The apparatus has a schematic structure in which an inner container is housed in an outer container, a heat generating agent that generates heat by water is stored in the outer container bottom, and the inner container housed in the upper position of the outer container inner space, The bottom surface is formed of a rupturable film, and the chemical solution in which the chemical is dissolved is contained. In use, the rupturable film on the bottom surface of the inner container is broken to disperse the aqueous drug solution on the exothermic agent, thereby causing an exothermic reaction to evaporate the agent.
【0005】[0005]
【発明が解決しようとする課題】しかしながら、上記の
各方法では様々な問題があった。先ず、香を焚く方法
は、燃焼により香りを漂わせるものであるから、その芳
香の持続させるためには、常に香が点火している必要が
あり、火災等の危険性がある。However, each of the above methods has various problems. First, the method of burning incense is to burn the scent by burning, so that the scent must always be ignited in order to maintain the scent, and there is a risk of fire or the like.
【0006】また、スプレー式は、ノズルから噴出する
香料含有水滴の粒子径が比較的大きく、空気中に発散し
た香料がすぐに沈降してゆき、芳香の持続性が短い問題
がある。そして、使用後の空き缶の処理にも問題があ
る。Further, the spray type has a problem that the perfume-containing water droplets ejected from the nozzle have a relatively large particle size, and the perfume diffused in the air immediately settles down, resulting in a short duration of aroma. There is also a problem in processing empty cans after use.
【0007】さらに、特開平2−289257号で開示
された技術は、薬剤水溶液を収納した内容器を発熱剤を
収納した外容器内に収納しているため、製造コストが高
くつく問題がある。また、スプレー式と同様に使用後の
容器の処理にも問題がある。そして、このような容器構
造のために、輸送時の衝撃により内容器が破損した場合
には、発熱剤と薬剤水溶液が反応して発熱する危険性が
あり、火災や火傷などの問題を引き起こす可能性があ
る。また、混載して輸送している場合には他の製品に影
響を及ぼす恐れもある。Further, the technique disclosed in Japanese Patent Laid-Open No. 2-289257 has a problem that the manufacturing cost is high because the inner container containing the chemical solution is contained in the outer container containing the exothermic agent. Further, similar to the spray type, there is a problem in treating the container after use. Due to such a container structure, if the inner container is damaged by shock during transportation, there is a risk that the exothermic agent reacts with the chemical solution to generate heat, which may cause problems such as fire and burns. There is a nature. In addition, there is a risk that other products may be affected if they are mixed and transported.
【0008】本発明はこのような現況に鑑み、芳香器の
改良を行わんとしたもので、特に家庭で手軽に使用する
ことができる芳香器を提供せんとするものである。そし
て、その形態を簡略化し且つ、輸送時の安全性を考慮す
るとともに、使用時における火災発生の可能性を皆無に
し、また、使用後の容器等の廃棄物の処理もし易く、環
境問題にも配慮し、加えて、製造コストも低く、安価に
提供できる芳香器を提供せんとするものである。In view of the above situation, the present invention has been made to improve the fragrance machine, and particularly to provide an fragrance machine that can be easily used at home. And, while simplifying the form and considering safety during transportation, there is no possibility of fire during use, and it is easy to dispose of waste such as containers after use, which is environmentally friendly. In consideration, the manufacturing cost is low, and it is intended to provide an aroma dispenser that can be provided at low cost.
【0009】[0009]
【課題を解決する為の手段】前記本発明の課題は、発熱
反応を起こす粒状または粉状化合物と香料を未反応な状
態で混合して同一容器内に収納した芳香器により解決さ
れる。発熱反応を起こす粒状または粉状化合物として
は、酸化鉄等の使用も可能であるが、加水によって発熱
する加水発熱型化合物を用いることがより好ましく、例
えば、酸化カルシウムなどが用いられる。また、香料は
吸着剤に担持させこともできる。容器の素材としては、
香気成分が透過できるものであれば種々のものが採用可
能であるが、特に発熱体として加水発熱型化合物を用い
る場合の容器としては、透水性のものを用いる必要があ
る。また、容器の形状も様々なものが利用可能であり、
例えば、箱体等の使用も可能であるが、コスト面、携帯
性、更には手軽さの観点からは袋体を用いることが好ま
しい。The above-mentioned object of the present invention is solved by an aroma machine in which a granular or powdery compound which causes an exothermic reaction and a fragrance are mixed in an unreacted state and housed in the same container. As the granular or powdery compound that causes an exothermic reaction, iron oxide or the like can be used, but it is more preferable to use a hydrothermal exothermic compound that generates heat by water addition, such as calcium oxide. Further, the fragrance may be supported on the adsorbent. As the material of the container,
Various types can be adopted as long as the fragrance component can pass therethrough, but it is necessary to use a water-permeable container as a container particularly when a hydrothermal exothermic compound is used as a heating element. Also, various container shapes are available,
For example, a box or the like can be used, but it is preferable to use a bag from the viewpoint of cost, portability, and handiness.
【0010】加水発熱型化合物を用いたときには、反応
後の加水発熱型化合物の発熱温度は20℃以上100℃
以下の範囲となるように調整することが望まれる。When the water heating exothermic compound is used, the exothermic temperature of the water heating exothermic compound after the reaction is 20 ° C. or more and 100 ° C.
It is desirable to adjust it so that it falls within the following range.
【0011】[0011]
【作用】この様な構成の芳香器は、粒状または粉状化合
物を発熱させ、この熱により香気成分を発散させること
を基本的作用としている。特に、加水発熱型化合物を用
いた場合には、その発熱反応は水を添加することにより
簡易に行われる。そして、この場合には、加水発熱型化
合物が発する熱量により水蒸気の発生と香料の香気成分
の気化を同時に行うとともに、気化した香気成分を水蒸
気粒子に溶け込ませた状態で外部空間に蒸散させて、香
料を発散させる。香気成分は水蒸気粒子に溶け込んでい
ることから、香気成分が直接、鼻の粘膜を刺激すること
もなく、したがって刺激臭のないまろやかな香りを漂わ
せることができる。The basic function of the aroma machine having such a structure is to heat the granular or powdery compound and to emit the aroma component by this heat. In particular, when a hydrothermal exothermic compound is used, the exothermic reaction is easily carried out by adding water. Then, in this case, while simultaneously performing the generation of water vapor and the vaporization of the fragrance component of the fragrance due to the amount of heat generated by the hydrothermal exothermic compound, the vaporized fragrance component is evaporated into the external space in a state of being dissolved in the water vapor particles, Disperse the fragrance. Since the fragrance component is dissolved in the water vapor particles, the fragrance component does not directly irritate the mucous membrane of the nose, and thus can give a mellow scent with no irritating odor.
【0012】[0012]
【実施例】本発明を図示した実施例に基づき詳細に説明
する。図1は本発明の芳香器の外観を示す斜視図であ
り、図2は同芳香器の断面説明図である。図中1は不織
布等の透水性部材よりなる袋体である。当該袋体内部に
は加水発熱型化合物である粉状の酸化カルシウム(生石
灰)2と香料成分を担持させた粉状の珪酸カルシウム3
が混合状態で収納されている。DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail based on the illustrated embodiments. FIG. 1 is a perspective view showing the external appearance of the aroma dispenser of the present invention, and FIG. 2 is a sectional explanatory view of the aroma diffuser. In the figure, reference numeral 1 is a bag made of a water-permeable material such as nonwoven fabric. Inside the bag body, powdery calcium oxide (quick lime) 2 which is a hydrothermal exothermic compound and powdery calcium silicate 3 carrying a fragrance component 3
Are stored in a mixed state.
【0013】袋体1は酸化カルシウム粉と香料を担持さ
せた珪酸カルシウム粉を混合状態で収納するものであ
り、その材質は透水性であればよく、例えば不織布、
紙、綿布などを用いることが出来る。袋体は製造コスト
も安価で取扱も容易であり、使用後の処理も容易である
ことから、本発明の芳香器の容器として最適であるが、
容器は袋体以外のもの使用することも可能であり、例え
ば、箱体等も採用可能である。The bag 1 is for storing calcium oxide powder and calcium silicate powder carrying a fragrance in a mixed state, as long as the material is water permeable, for example, non-woven fabric,
Paper, cotton cloth, etc. can be used. Since the bag is inexpensive to manufacture and easy to handle, and is easy to treat after use, it is most suitable as the container for the aroma device of the present invention.
A container other than a bag can be used, and for example, a box can be adopted.
【0014】発熱反応を起こす化合物は、粒状あるいは
粉状の形態のものを用いる。固形状のものでは香料との
混合が不均一なため、芳香時に香料の発散が良好でない
が、粒状や粉状の化合物を用いると、発熱反応時に香料
との接触面積が大きいために香料が加熱し易く、発散が
良好になる。そして、これらの化合物の粒径は小さい程
好ましく、またその形状も均一なほど一般的に好ましい
が、不揃いの粒状や粉状の化合物を用いることも可能で
ある。The compound which causes an exothermic reaction is used in the form of particles or powder. The solid form does not mix well with the fragrance, so the emission of the fragrance is not good at the time of aroma, but if a granular or powdery compound is used, the fragrance will heat up due to the large contact area with the fragrance during the exothermic reaction It is easy to do and the divergence is good. The smaller the particle size of these compounds is, and the more uniform the shape is, the more preferable it is. However, it is also possible to use irregular or granular compounds.
【0015】本実施例において、酸化カルシウムを用い
たのは、加水することにより手軽に熱を発生させること
が出来、しかも安全に取り扱うことができるからであ
る。そして、酸化カルシウム等の加水発熱型化合物は、
化合物が発熱すると香料が気化すると同時に、添加した
水分も水蒸気となって立ち昇り、この結果、香気成分は
水蒸気粒子を溶け込んだ状態で発散させることができる
ので、良好な芳香状態が得られる。しかも、発生する水
蒸気粒子の粒径は小さいので、人間の嗅覚に対して穏や
かに作用し、あたかも自然に咲いている花弁から香りが
漂っているような状態が実現される。尚、ここでは発熱
体として酸化カルシウムについてのみ述べたが、発熱体
としては他のものも利用可能であり、例えばもみ動作に
より空気との接触を促進することによって発熱する酸化
鉄などを利用することもできる。但し香料を変質を伴う
ような、急激な昇温を招くものや、発火するもの、更に
は、発火しなくても危険があるものが除かれることはい
うまでもない。In the present embodiment, calcium oxide is used because it is possible to easily generate heat by adding water and to handle it safely. And, the hydrothermal exothermic compound such as calcium oxide is
When the compound generates heat, the fragrance is vaporized, and at the same time, the added water also rises as water vapor, and as a result, the fragrance component can be emitted in a state where the water vapor particles are dissolved, so that a good aroma state can be obtained. Moreover, since the generated water vapor particles have a small particle size, they act gently on the human sense of smell, and a state in which the scent drifts from the petals that naturally bloom is realized. Although only calcium oxide is described here as the heating element, other heating elements can be used. For example, iron oxide, which generates heat by promoting contact with air by a rubbing operation, can be used. You can also However, it goes without saying that substances that cause a sudden rise in temperature, such as alteration of the fragrance, substances that ignite, and substances that are dangerous without firing are excluded.
【0016】本実施例では、香料は珪酸カルシウムに吸
着させて使用している。香料を酸化カルシウムのように
アルカリ性を示す化合物と混合状態で一体収容すると、
香料がアルカリ性によって変質する可能性が高いが、香
料を吸着剤に担持させることにより、香料と発熱化合物
との直接的な接触をさけることができ、香料が受けるダ
メージを軽減できるためである。香料を担持する吸着剤
としては、珪酸カルシウムの以外にも、珪酸マグネシウ
ム、炭酸カルシウム、炭酸バリウム、炭酸コバルト、酸
化銅、酸化コバルト、シリカ、アルミナ等を用いること
ができる。香料に対して直接に接触しても悪影響を及ぼ
さない化合物を用いた場合には、粉末香料を発熱化合物
と直接混合する方法が適用される。本発明の芳香器は、
発熱化合物と香料を同一袋体内に一体的に収納する形態
を採用している。したがって、発熱化合物と香料とを分
包する場合のように、多重包装する必要がなく包装コス
トの低減がはかられるとともに、使用に際しての取扱も
容易である。In this embodiment, the fragrance is used by being adsorbed on calcium silicate. When the fragrance is housed in a mixed state with a compound showing alkalinity such as calcium oxide,
This is because the fragrance is highly likely to be deteriorated by alkalinity, but by supporting the fragrance on the adsorbent, direct contact between the fragrance and the exothermic compound can be avoided, and damage to the fragrance can be reduced. In addition to calcium silicate, magnesium silicate, calcium carbonate, barium carbonate, cobalt carbonate, copper oxide, cobalt oxide, silica, alumina or the like can be used as the adsorbent for supporting the fragrance. When a compound that does not adversely affect the direct contact with the perfume is used, a method of directly mixing the powdered perfume with the exothermic compound is applied. The aroma dispenser of the present invention is
The exothermic compound and the fragrance are integrated in the same bag. Therefore, unlike the case where the exothermic compound and the fragrance are separately packaged, it is not necessary to carry out multiple packaging and the packaging cost can be reduced, and handling at the time of use is easy.
【0017】このような芳香器から香りを漂わすには、
袋体を陶器の皿に載置したうえ、その袋体に対して適量
の水を注ぐだけでよい。袋体を載置する皿として、しゃ
れたデザインのものを利用することはいうまでもない。
水を注がれた加水発熱型化合物は発熱し、その熱量によ
り水蒸気の発生と香料の香気成分の気化が同時に行わ
れ、気化した香気成分が水蒸気粒子に溶け込んだ状態で
外部空間に蒸散する。香気成分は水蒸気に溶け込んだ状
態で発散するから刺激のない穏やかな香りを漂わせるこ
とができ、あたかも花園にいるかのような自然の香りを
楽しむことが出来る。また、発生する水蒸気の水滴粒径
も5ミクロン〜10ミクロン程度で極めて小さいため、
大気中で沈降することなく長時間に渡って浮遊しつづ
け、芳香状態を長時間、持続させることができる。そし
て、例えば来客を迎えるときなどは、来客の到着数分前
に、芳香器に吸水して、訪問客を穏やかな気分で迎える
ことができる。また、袋体を載置する皿をしゃれたデザ
インのものをすることにより、演出効果も楽しめる。To scent the fragrance from such an aroma device,
All you have to do is place the bag on a ceramic dish and pour an appropriate amount of water into it. It goes without saying that a dish with a sleek design is used as the plate on which the bag is placed.
The hydrothermal exothermic compound to which water is poured generates heat, and the amount of heat generates steam and vaporizes the fragrance component of the perfume at the same time, and the vaporized fragrance component evaporates into the external space in a state of being dissolved in the steam particles. Since the fragrance component is emitted in a state of being dissolved in water vapor, it can have a mild scent that is not irritating, and you can enjoy the natural scent as if you were in a flower garden. In addition, since the diameter of water droplets of the generated steam is very small, about 5 to 10 microns,
It does not settle in the atmosphere and continues to float for a long time, and the aroma state can be maintained for a long time. Then, for example, when welcoming a visitor, a few minutes before the arrival of the visitor, water can be absorbed in the fragrance device to greet the visitor in a calm mood. In addition, you can enjoy the effect of the design by designing the dish on which the bag is placed.
【0018】このようにして使用された芳香器は使用後
に特別な処理をする必要もなく、そのまま廃棄すれば良
い。本実施例の芳香器は発熱体に酸化カルシウムと香料
担持吸着剤に珪酸カルシウムを使用しているので環境汚
染の問題がない。尚、発熱化合物の発熱温度は20℃未
満であると香料の芳香がうまくいかず、100℃以上で
あると蒸気により火傷を負う危険性があることから、2
0℃以上から100℃以下の範囲に設定することが好ま
しいことが確認された。次に本発明の具体的実施例につ
いて述べる。The fragrancer thus used does not need to be treated specially after use and may be discarded as it is. Since the aroma device of this embodiment uses calcium oxide for the heating element and calcium silicate for the adsorbing agent for perfume, there is no problem of environmental pollution. If the exothermic temperature of the exothermic compound is less than 20 ° C, the aroma of the fragrance will not work properly, and if it is 100 ° C or more, there is a risk of being burned by steam.
It was confirmed that it is preferable to set the temperature in the range of 0 ° C to 100 ° C. Next, specific examples of the present invention will be described.
【0019】(実施例1)不織布の透水性袋に、粉末状
の酸化カルシウム約20gと粉末状の珪酸カルシウム
(商品名:フローライトR 徳山曹達(株)社製)約
0.5gにレモン香料約0.1gを吸着させたレモン香
料担持吸着剤約0.6gを均一に混合して袋を密閉して
レモンの香りのある芳香器を作成する。そして、この芳
香器を陶器の皿(直径約10センチメートル)に置く。
その後、芳香器外部より水約20gを注水して、発熱さ
せた。酸化カルシウムの中心部の発熱温度は、1分後に
は約58℃、5分後には約82℃、10分後には約58
℃と成り、さらには、蒸気の温度が1分後には約30℃
に達し、5分後には約43℃、10分後おいても約35
℃を維持していた。この芳香器はレモンの良い香りを発
散して、部屋中に充満して爽やかな香りを漂わせてい
た。(Example 1) About 20 g of powdered calcium oxide and about 0.5 g of powdered calcium silicate (trade name: Fluorite R Tokuyama Soda Co., Ltd.) were added to a non-woven water-permeable bag, and lemon flavor was added. About 0.6 g of the lemon flavoring-carrying adsorbent adsorbing about 0.1 g of the adsorbent is uniformly mixed, and the bag is sealed to prepare an aroma machine having a lemon scent. Then, place this aroma device on a ceramic dish (about 10 cm in diameter).
Then, about 20 g of water was poured from the outside of the aroma device to generate heat. The exothermic temperature at the center of calcium oxide is about 58 ° C after 1 minute, about 82 ° C after 5 minutes, and about 58 ° C after 10 minutes.
℃, and the steam temperature is about 30 ℃ after 1 minute.
Reached about 43 ° C in 5 minutes and about 35 ° C in 10 minutes
C was maintained. This aroma machine emitted the good scent of lemon and filled the room with a refreshing scent.
【0020】(実施例2)本発明者は、加水発熱型化合
物である粉状の酸化カルシウムと水の添加比率及び酸化
カルシウムの使用量の差が効果に与える影響を検討する
ために実験を行った。図3〜図7は縦軸に温度、横軸に
時間を取り、酸化カルシウムの中心の発熱温度、発生す
る蒸気温度を測定した結果のグラフである。図では、発
熱温度を実線で示し、蒸気温度は点線で示した。図3、
図4は、酸化カルシウム10gに対して水の添加量を変
えたもの(図3:サンプル1、図4:サンプル2)で、
図5〜図7は酸化カルシウム100gに対する水の添加
量を変えたもの(図5:サンプル3、図6:サンプル
4、図7:サンプル5)である。それぞれの図は、酸化
カルシウムの発熱温度および発生する蒸気温度を約30
秒ごとに測定し、プロットしてグラフ化したものであ
る。その結果、サンプル1では、酸化カルシウムに加水
後、約3分ぐらいで温度上昇および蒸気温度がピークを
迎え、サンプル2では約5分後にサンプル1と同様にピ
ークを有した。サンプル1、サンプル2では、発熱温度
が30℃〜100℃の範囲でピークを迎え、蒸気温度は
20℃〜50℃の範囲でピークを迎えて、徐々に上昇し
て緩やかなカーブを描いて下降して行った。これに対し
て、サンプル3〜サンプル5は加水した後、約1分後に
は発熱温度及び発生する蒸気温度は急激な上昇がみら
れ、酸化カルシウムの発熱温度は100℃以上となり、
蒸気温度が約90℃となった後、各々の温度は急下降の
一途をたどり蒸気が短時間に放出された。(Example 2) The present inventor conducted an experiment to examine the effect of the difference in the addition ratio of powdery calcium oxide, which is a hydrothermal exothermic compound, and water and the difference in the amount of calcium oxide used on the effect. It was 3 to 7 are graphs showing the results of measuring the exothermic temperature at the center of calcium oxide and the vapor temperature generated by plotting the temperature on the vertical axis and the time on the horizontal axis. In the figure, the exothermic temperature is shown by a solid line and the steam temperature is shown by a dotted line. Figure 3,
FIG. 4 shows the amount of water added to 10 g of calcium oxide (FIG. 3: sample 1, FIG. 4: sample 2).
5 to 7 are obtained by changing the amount of water added to 100 g of calcium oxide (FIG. 5: sample 3, FIG. 6: sample 4, FIG. 7: sample 5). Each figure shows the exothermic temperature of calcium oxide and the generated steam temperature of about 30.
It is measured every second, plotted and graphed. As a result, in Sample 1, the temperature rise and the vapor temperature reached their peaks in about 3 minutes after addition to calcium oxide, and in Sample 2, the peaks appeared in about 5 minutes as in Sample 1. In Sample 1 and Sample 2, the exothermic temperature peaks in the range of 30 ° C to 100 ° C, and the steam temperature peaks in the range of 20 ° C to 50 ° C, gradually rising and drawing a gentle curve and falling. I went. On the other hand, in Samples 3 to 5, the exothermic temperature and the generated steam temperature increased sharply about 1 minute after hydration, and the exothermic temperature of calcium oxide was 100 ° C. or higher.
After the steam temperature reached about 90 ° C., each temperature followed a rapid drop and steam was discharged in a short time.
【0021】サンプル1、サンプル2は各々の温度の上
昇及び温度の下降が緩やかに行われており、蒸気発生の
持続性が長く、また取り扱う上で安全であることが示唆
された。これに対して、サンプル3〜サンプル5では急
激な温度上昇であるために、発熱温度が100℃以上を
越えており、取扱の面で火傷等の危険性があると示唆さ
れ、芳香性も蒸気温度が急激に上昇して急激に下降して
いるために持続性に問題が見られた。これまでの試験結
果から、加水発熱型化合物と、香料担持吸着剤との反応
後の発熱化合物の中心温度は20℃以上100℃以下が
好ましいと判明した。It was suggested that Sample 1 and Sample 2 have a long temperature rise and a slow temperature drop, respectively, have a long duration of steam generation, and are safe to handle. On the other hand, in Samples 3 to 5, the exothermic temperature exceeds 100 ° C or more due to the rapid temperature rise, which suggests that there is a risk of burns and the like in terms of handling, and the aromaticity is also steam. There was a problem with sustainability due to the rapid rise and fall in temperature. From the test results so far, it has been found that the center temperature of the exothermic compound after the reaction between the hydrothermal exothermic compound and the flavor-carrying adsorbent is preferably 20 ° C. or higher and 100 ° C. or lower.
【0022】[0022]
【発明の効果】発熱反応を起こす粒状または粉状化合物
と香料を未反応な状態で混合して同一容器内に収納する
ことにより、包装にかかるコストが低く抑えられ、簡便
性が増す。加水発熱型化合物用いた場合には、水を適量
添加するだけで、手軽に香料を発散させることができ
て、しかも、火を使用しないため、火災などの問題点が
なくなり安全に芳香させることができる。自然の花から
漂う花の香りのように芳香させることが可能となる。ま
た、使用後は、特別な処理は必要もなく、そのまま廃棄
できる。EFFECT OF THE INVENTION By mixing the granular or powdery compound which causes an exothermic reaction and the fragrance in an unreacted state and storing them in the same container, the cost for packaging can be kept low and the convenience can be increased. When using a hydrothermal exothermic compound, by adding an appropriate amount of water, the fragrance can be easily released, and since no fire is used, there is no problem such as fire and it is possible to safely aromatize. it can. It is possible to make it aroma like the scent of a flower floating from a natural flower. In addition, after use, no special treatment is required and the product can be discarded as it is.
【図1】本願発明の芳香器の実施例の斜視図FIG. 1 is a perspective view of an embodiment of an aroma dispenser of the present invention.
【図2】同芳香器の断面説明図FIG. 2 is a sectional explanatory view of the aroma dispenser.
【図3】酸化カルシウムの発熱および蒸気発生試験1
(酸化カルシウム10gに水10gを添加)のグラフ[Fig. 3] Calcium oxide heat generation and steam generation test 1
Graph of (10 g of water added to 10 g of calcium oxide)
【図4】酸化カルシウムの発熱および蒸気発生試験2
(酸化カルシウム10gに水20gを添加)のグラフFIG. 4 Heat generation and vapor generation test 2 of calcium oxide
Graph of (adding 20 g of water to 10 g of calcium oxide)
【図5】酸化カルシウムの発熱および蒸気発生試験3
(酸化カルシウム100gに水60gを添加)のグラフFIG. 5: Calcium oxide heat generation and steam generation test 3
Graph of (60g of water added to 100g of calcium oxide)
【図6】酸化カルシウムの発熱および蒸気発生試験4
(酸化カルシウム100gに水100gを添加)のグラ
フFIG. 6 Heat generation and vapor generation test 4 of calcium oxide
Graph of (100 g of water added to 100 g of calcium oxide)
【図7】酸化カルシウムの発熱および蒸気発生試験5
(酸化カルシウム100gに水180gを添加)のグラ
フFIG. 7: Calcium oxide heat generation and steam generation test 5
Graph of (180g of water added to 100g of calcium oxide)
1.袋体 2.酸化カルシウム 3.珪酸カルシウム 1. Bag 2. Calcium oxide 3. Calcium silicate
Claims (8)
香料を未反応な状態で混合して同一容器内に収納してな
る芳香器。1. An aroma machine in which a granular or powdery compound that causes an exothermic reaction and a fragrance are mixed in an unreacted state and housed in the same container.
して、加水によって発熱する加水発熱型化合物を用いて
なる請求項1記載の芳香器。2. The aroma fragrance according to claim 1, wherein a hydrothermal exothermic compound that generates heat by water addition is used as the granular or powdery compound that causes an exothermic reaction.
用いてなる請求項1又は2記載の芳香器。3. The fragrancer according to claim 1, wherein calcium oxide is used as the hydrothermal exothermic compound.
2又は3記載の芳香器。4. The fragrance is carried on an adsorbent,
The aroma dispenser according to 2 or 3.
項1、2、3又は4記載の芳香器。5. The aroma dispenser according to claim 1, 2, 3 or 4, wherein a water-permeable bag is used as the container.
は粉状化合物である加水発熱型化合物と、香料を吸着剤
に担持させた香料担持吸着剤とを、混合した状態で透水
性袋体に収納してなる芳香器。6. A water-permeable bag body in the form of a mixture of a hydrothermal exothermic compound which is heated by water addition and whose shape is a granular or powdery compound, and a perfume-supporting adsorbent in which a perfume is carried by an adsorbent. An aroma machine that is stored.
水発熱型化合物と、香料を吸着剤に担持させた香料担持
吸着剤とを、未反応な状態で透水性容器内に一体的に収
納してなる芳香器に、外部から水を適量添加して加水発
熱型化合物を発熱させ、当該加水発熱型化合物が発する
熱量により水蒸気の発生と香料の香気成分の気化を同時
に行うとともに、気化した香料の香気成分を水蒸気粒子
に溶け込ませた状態で外部空間に蒸散させてなる香料の
発散方法。7. A granular or powdery exothermic water-type compound that generates heat by water addition and a perfume-supporting adsorbent in which a perfume is supported on an adsorbent are integrally stored in a water-permeable container in an unreacted state. To the aroma device formed by adding an appropriate amount of water from the outside to heat the hydrothermal exothermic compound, the amount of heat generated by the hydrothermal exothermic compound simultaneously generates steam and vaporizes the fragrance component of the fragrance, and A fragrance emitting method in which a fragrance component is dissolved in water vapor particles and evaporated into an external space.
20℃以上100℃以下である請求項7記載の香料の発
散方法。8. The center temperature of the hydrothermal exothermic compound after the reaction is
The fragrance spreading method according to claim 7, which is 20 ° C or higher and 100 ° C or lower.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4314081A JPH06134025A (en) | 1992-10-28 | 1992-10-28 | Aromatic device and diffusion of aromatic using the same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4314081A JPH06134025A (en) | 1992-10-28 | 1992-10-28 | Aromatic device and diffusion of aromatic using the same |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH06134025A true JPH06134025A (en) | 1994-05-17 |
Family
ID=18049006
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP4314081A Withdrawn JPH06134025A (en) | 1992-10-28 | 1992-10-28 | Aromatic device and diffusion of aromatic using the same |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH06134025A (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1999048469A1 (en) * | 1998-03-20 | 1999-09-30 | The Procter & Gamble Company | Composition for aroma delivery |
| WO1999048539A1 (en) * | 1998-03-20 | 1999-09-30 | The Procter & Gamble Company | Method for aroma delivery |
| WO2002068005A1 (en) * | 2001-02-26 | 2002-09-06 | The Procter & Gamble Company | Composition for aroma delivery with improved stability and reduced foaming |
| US7081211B2 (en) | 2000-07-13 | 2006-07-25 | The Procter & Gamble Company | Multi-layer reaction mixtures and apparatuses for delivering a volatile component via a controlled exothermic reaction |
| US7189372B2 (en) | 2000-03-01 | 2007-03-13 | Kao Corporation | Dissapating method and device and dissipating device for volatile components |
| US7235187B2 (en) | 2000-07-13 | 2007-06-26 | The Procter & Gamble Company | Methods and apparatuses for delivering a volatile component via a controlled exothermic reaction |
| JP2009213922A (en) * | 2009-06-30 | 2009-09-24 | Kao Corp | Steam generator |
-
1992
- 1992-10-28 JP JP4314081A patent/JPH06134025A/en not_active Withdrawn
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1999048469A1 (en) * | 1998-03-20 | 1999-09-30 | The Procter & Gamble Company | Composition for aroma delivery |
| WO1999048539A1 (en) * | 1998-03-20 | 1999-09-30 | The Procter & Gamble Company | Method for aroma delivery |
| US7189372B2 (en) | 2000-03-01 | 2007-03-13 | Kao Corporation | Dissapating method and device and dissipating device for volatile components |
| US7081211B2 (en) | 2000-07-13 | 2006-07-25 | The Procter & Gamble Company | Multi-layer reaction mixtures and apparatuses for delivering a volatile component via a controlled exothermic reaction |
| US7235187B2 (en) | 2000-07-13 | 2007-06-26 | The Procter & Gamble Company | Methods and apparatuses for delivering a volatile component via a controlled exothermic reaction |
| WO2002068005A1 (en) * | 2001-02-26 | 2002-09-06 | The Procter & Gamble Company | Composition for aroma delivery with improved stability and reduced foaming |
| JP2009213922A (en) * | 2009-06-30 | 2009-09-24 | Kao Corp | Steam generator |
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| A300 | Withdrawal of application because of no request for examination |
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