JPS6172949A - Humidifier - Google Patents
HumidifierInfo
- Publication number
- JPS6172949A JPS6172949A JP19616684A JP19616684A JPS6172949A JP S6172949 A JPS6172949 A JP S6172949A JP 19616684 A JP19616684 A JP 19616684A JP 19616684 A JP19616684 A JP 19616684A JP S6172949 A JPS6172949 A JP S6172949A
- Authority
- JP
- Japan
- Prior art keywords
- water
- flow path
- humidifier
- bonded
- path unit
- 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.)
- Pending
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F6/00—Air-humidification, e.g. cooling by humidification
- F24F6/02—Air-humidification, e.g. cooling by humidification by evaporation of water in the air
Landscapes
- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Air Humidification (AREA)
Abstract
Description
【発明の詳細な説明】
〔産業上の利用分野〕
この発明に温風等による1然蒸発方式でありながら、7
J[]湿能力を大巾に向上させ定加湿器に関するもので
ある。[Detailed Description of the Invention] [Industrial Application Field] Although this invention uses a single evaporation method using hot air, etc.,
J[] This relates to a constant humidifier with greatly improved humidification capacity.
省エネルギーの観点から最近の居住空間は断熱1ヒ、気
密化か進んでおり、よす=度の空調が要求されている。From the perspective of energy conservation, modern living spaces are becoming more insulated and airtight, and require air conditioning to a good degree.
空調の要素として、温度コントロール、湿度コントロー
ルおよび有害空気成分のコントロールが挙げらnる。温
度コントロールに関しては種々の加熱方式および冷却方
式が実用fヒさね、勇足のいく状況にある。し刀≧し湿
度コントロールおよび有害空気成分のコントロールに関
しては未だ十分に勇足のいく物がない状況にある。Air conditioning elements include temperature control, humidity control, and control of harmful air components. With regard to temperature control, various heating and cooling methods are not in practical use, and progress is still being made. The situation is still lacking in terms of humidity control and control of harmful air components.
加湿器に関しては、自然蒸発方式、電熱方式、水スプレ
一方式2よび超音波方式等かあるか、自然蒸発方式げ加
湿能力が小さい、電熱方式でぼランニングコストが妬い
、水スプレ一方式でに加湿効率が低く、大型化する。ま
た、超音波方式ぼイニシャルコストが昼い、寿命が短い
等の欠点がある。Regarding humidifiers, there are natural evaporation type, electric heating type, water spray type 2, ultrasonic type, etc. Natural evaporation type has a small humidifying capacity, electric heating type has a high running cost, and water spray type one type does not work. Humidification efficiency is low and the size is large. In addition, the ultrasonic method has drawbacks such as low initial cost and short life.
そこで、イニシャルコストおよびランニングコストか低
く、最も実用性の扁い自然蒸発方式の加湿器で加湿能力
を大巾に向上させる方法について検討を恵ねた。自然蒸
発方式では水の蒸発面積を極力広くとるために、開口部
の大きいバット状の容器を用いたり、親水性繊維の織布
の下端を水中に浸して毛細管力により水の表面積を増や
す努力でしている。ここで仮りに水を厚さff mmに
スライスし、こt″LLヲ縦に多層並べることができれ
ば水の蒸発面積を大巾に増加させることができる。Therefore, we decided to consider a method to greatly improve the humidification capacity of a natural evaporation type humidifier, which has the lowest initial cost and running cost and is the least practical. In the natural evaporation method, in order to maximize the area for water evaporation, a vat-shaped container with a large opening is used, or the bottom end of a woven hydrophilic fiber is dipped in water to increase the surface area of the water using capillary force. are doing. If water were to be sliced to a thickness of ff mm and arranged in multiple layers vertically, the evaporation area of water could be greatly increased.
そこでスライスさねた厚さ数=の水を縦に保持する方法
について研究を重ねた結果、多孔質疎水性高分子を素材
とし、内部の厚さが数mmの中空構造体の中空部に上記
スライスさねた水をおさめることにより任意の空間に水
を保持することができ、しかも水は自由に蒸発できるこ
とを先に見い出した。Therefore, as a result of repeated research on a method for vertically retaining water of the number of sliced thicknesses, we found that the above-mentioned It was previously discovered that water can be held in any space by containing the sliced water, and that the water can evaporate freely.
上記多孔質疎水性高分子素材のシートを用いる自然蒸発
式加湿4を商品化するために、厚さ5mmのアルミ板あ
るいはプラスチック板を用いて、第5図(alの斜視図
に示すような中空の枠を形成し、ポリエチレンやポリプ
ロピレン?素材とする厚さ100〜200μmの多孔質
ノート1両側から貼り合わせることにより加湿素子を試
作し、こ′hを複数奴縦に並べて加湿器とし、中空部V
c@水しながら加湿素子間に空気全速り、加湿能力の評
価試躾?行った。但し、図中illは枠?、(2)は給
水孔を表わし、第5図(b)は中央付近の断面を表わす
。In order to commercialize the natural evaporation type humidifier 4 using the sheet of porous hydrophobic polymer material mentioned above, an aluminum plate or a plastic plate with a thickness of 5 mm was used to create a hollow space as shown in the perspective view of Fig. 5 (al). A humidifying element was prototyped by forming a frame of 100 to 200 μm thick porous notebook made of polyethylene or polypropylene material and pasting them together from both sides. V
c@ Full speed of air between the humidifying elements while watering, evaluation test of humidifying ability? went. However, is ill in the figure a frame? , (2) represents the water supply hole, and FIG. 5(b) represents a cross section near the center.
その結果、上記多孔質シートが水の自重により横方向に
膨れるーしかも積層した場合には空気の壇路が大巾に減
少するという問題点かあることがわかった。As a result, it was found that the above-mentioned porous sheet swells laterally due to its own weight of water, and when stacked, there is a problem in that the air passageway is greatly reduced.
そこで、本発明者らは多孔質シートが水の自重により横
方向に膨ねないように多孔質シー82両側からネットで
押える方式等、いろいろ検討2重ね友結果、この発明全
完成させるに至った。この発明ば、水の自lにより横方
向に膨ねることがなく、水の蒸発面積が増大し加湿能力
の増大する加湿器?提供することを目的とする。Therefore, the inventors of the present invention conducted various studies, such as a method of pressing the porous sheet 82 with nets from both sides to prevent it from expanding laterally due to the weight of the water itself.As a result, the present invention was finally completed. . With this invention, a humidifier that does not expand laterally due to the water itself, increases the evaporation area of water, and increases the humidifying capacity. The purpose is to provide.
この発明の加湿器は、水の通過を防止し、水蒸気を4過
させ得る多孔質疎水性高分子素材で形成した流路を部分
的に内接接合した流路ユニットを有し、上記流路ユニッ
トの一4部より上記流路ユニット内に水を供給し、上記
流路ユニットの外周に送風した空気に上記流路ユニット
の多孔質疎水性高分子素材を通過した水蒸気を含ませて
加湿するようにしたものである。The humidifier of the present invention has a flow path unit in which a flow path formed of a porous hydrophobic polymer material capable of preventing the passage of water and allowing water vapor to pass through is partially internally joined, and the flow path Water is supplied into the flow path unit from a fourth part of the unit, and the air blown around the outer periphery of the flow path unit is humidified by being moistened with water vapor that has passed through the porous hydrophobic polymer material of the flow path unit. This is how it was done.
この発明においては、加湿用の水を保持する流路全部分
的に内Fil1合することにより、水の自重による横方
向の膨ねを防止する。また、回吸接合により流路に凹凸
が形成さハるので、水の蒸発面“積が増大し、さらに空
気流が乱流となるために加湿能力が増大する。In this invention, the entire flow path for holding water for humidification is partially aligned with the inner Fil1, thereby preventing the water from expanding in the lateral direction due to its own weight. In addition, the suction bonding creates unevenness in the flow path, which increases the evaporation surface area of water, and furthermore, the air flow becomes turbulent, thereby increasing the humidification capacity.
以下この発明を図に基いて説明する。第1図けこの発明
に係わる流路ユニットの一実@夕1」を表わす@硯図で
、図中、(3)に多孔質疎水性高分子素材の7−ト(以
下多孔質シートと記す)金表わし、図中の実娠は内接受
合した熱融着の跡を表わす。This invention will be explained below based on the drawings. Figure 1 is an inkstone diagram showing a flow path unit according to the present invention. ) The gold in the figure shows the traces of internal heat fusion.
320 X 220mmの2枚の多孔質シート全重ね会
わせ、第1図のように両側に20mmずつ残して袋状に
熱融着した。その後、上、下端f 20mmずつ残して
10mm間隔で複数の平行直、保全熱融看した。図中、
(2)は給排水口を表わし、外?44mmのポリエチレ
ンチューブ金図のように差し込み凝着した。Two porous sheets measuring 320 x 220 mm were placed on top of each other and heat-sealed to form a bag, leaving 20 mm on each side as shown in Figure 1. Thereafter, a plurality of parallel and straight lines and maintenance thermal melting were performed at intervals of 10 mm, leaving 20 mm at each of the upper and lower ends. In the figure,
(2) represents the water supply and drainage outlet, outside? A 44 mm polyethylene tube was inserted as shown in the figure and adhered.
第2図(alけ上記11F、路ユニット金枠?用いて固
ポした状態の一実癩例を表わす斜視図で、図中、ill
は厚さ2mm 、巾20mmのプラスチック板’i f
Jiみ合わせた枠全表わす。また、第2図(1))げ中
央付近の断面を表わす。最初に再1図に示す流路ユニッ
トの両01lIを上記プラスチック板で挾み、妾看剤を
用いて固定した。次に、上、下端の非熱融着部分をカバ
ーするように上記プラスチック板を用いて図のように接
着した。この時、流路zニットに空気?吹き込んでピン
と張った状態で固定した。図中、(2)は給排水口、(
3)は多孔質シートを表わす。第2図の流路ユニットに
おける水の有効蒸発面積は約O9上田2であった。Fig. 2 (above 11F) is a perspective view showing an example of leprosy in a state in which it is firmly placed using the unit metal frame;
is a plastic plate with a thickness of 2 mm and a width of 20 mm.
Displays the entire frame including Ji. FIG. 2 (1) also shows a cross section near the center of the ridge. First, both sides of the channel unit shown in Fig. 1 were sandwiched between the plastic plates mentioned above and fixed using a dowel. Next, the above plastic plates were used to cover the non-heat-sealed parts of the upper and lower ends and were adhered as shown in the figure. At this time, is there air in the flow path z knit? I blown into it and held it taut. In the figure, (2) is the water supply and drainage port, (
3) represents a porous sheet. The effective evaporation area of water in the channel unit of FIG. 2 was approximately O9 Ueda2.
多孔資疎水性高分子素はとしてげ1例えばポリエテレノ
、ポリプロピレン、ポリスチレン、ポリ塩化ビニル、ポ
リ塩化ビニリデン、ポリカーボネート、ポリエステル、
及びフッ素樹脂等が用いられる。また、この素材に存在
する無数の微細孔の平均径孔ば、水蒸気(気体状の水分
子>ri自由に通過させるが、水(液体状の水分子)の
通過を防止して、流路ユニットの中空部に保持するため
に、0.1/l1m以下でげ水蒸気に対する抵抗か出て
ぐるので、また10μmjJ上になると水が通過しやす
ぐなるので、0.1μmから10μmの範囲であるのか
望ましい。Porous hydrophobic polymer element 1 For example, polyethylene, polypropylene, polystyrene, polyvinyl chloride, polyvinylidene chloride, polycarbonate, polyester,
and fluororesin, etc. are used. In addition, the average diameter of the countless fine pores present in this material allows water vapor (gaseous water molecules>ri) to pass through freely, but prevents water (liquid water molecules) from passing through the channel unit. In order to hold it in the hollow part, the resistance to water vapor increases below 0.1/l1m, and water can easily pass through when it is above 10μm, so the range is from 0.1μm to 10μm. desirable.
なお、加圧して送水する場合、例えばポ/グで水を供給
すると、若干加圧さね、水がこの素材よりしみ出ること
もあるが、実用上差し支えない。この実施v11Vcお
いては、平均孔径1μm、厚さ100μmの多孔性ポリ
エチレン製シート金用1/’また。In addition, when water is supplied under pressure, for example, when water is supplied with a po/g, the pressure may be slightly increased and the water may seep out from the material, but this does not pose a practical problem. In this implementation v11Vc, a porous polyethylene sheet metal with an average pore diameter of 1 μm and a thickness of 1/2 μm was used.
第2図の流域ユニットを厚さ4mmのプラスチック板を
スペーサーとして50枚配列して第3図のような加湿器
を作成した。図中、(4)は流路ユニット、(5)はス
ペーサー、(2)け給水口、(6)は給水パイプを表わ
す。A humidifier as shown in FIG. 3 was prepared by arranging 50 basin units of FIG. 2 using 4 mm thick plastic plates as spacers. In the figure, (4) represents a flow path unit, (5) a spacer, (2) a water supply port, and (6) a water supply pipe.
第3図の(イ)方向から流路ユニットの外周に乾燥空気
を送風す7−′lば、加湿さ′Fした空気が(ロ)力同
に吹き出てぐる。When dry air is blown around the outer periphery of the channel unit from the direction (a) in FIG. 3, humidified air (b) is blown out at the same time.
上記水の蒸発面積か約5m2の加湿4を用いて加湿能力
をfA11ポした結果を第4図の特性図に実線で示す。The results of calculating the humidifying capacity fA11 using Humidifier 4, which has an evaporation area of water of about 5 m2, are shown in the characteristic diagram of FIG. 4 by a solid line.
横#Ilに風速、縦軸は蒸発面績1m 2当りの水の蒸
発速度を麦わす。水の蒸発速度は空気条件に依存し、図
中の(a)け暖房機から吹き出さねる空気条件として副
産40’C,相対湿度20チの乾燥空気音用い7?:場
合を表わし、(b)け室り空気条件として温度25℃、
相対湿度50%の乾燥空気を用いた場合を表わす。The horizontal axis #Il represents the wind speed, and the vertical axis represents the evaporation rate of water per 1 m2 of evaporation area. The evaporation rate of water depends on the air conditions, and the air conditions in (a) in the figure below are those in which dry air with a by-product of 40'C and a relative humidity of 20 degrees is used.7? :Represents the case, (b) The temperature in the room is 25℃,
The case is shown using dry air with a relative humidity of 50%.
比較例として加湿素子−Z同じ寸法で第1図の枠に同一
の多孔質シートを貼り合わせ九内凄凄会のない加湿4の
加湿能力の測定結果?第4図に併記する。7JO湿濃子
ぼ多孔質シートの膨みを抑えるために金属ネットで両側
から法んだ。第4図中の破線のような結果とfxす、こ
の発明の実施例の加湿能力は比較例の加湿能力より約2
0%程増加していることがわかった。As a comparative example, the same porous sheet was attached to the frame in Figure 1 with the same dimensions as the humidifying element-Z, and the results of measuring the humidifying ability of Humidifying 4 without Kuuchi Sogokai? Also shown in Figure 4. In order to suppress the swelling of the 7JO wet-condensed porous sheet, it was hung from both sides with a metal net. According to the results shown by the broken line in FIG.
It was found that the increase was approximately 0%.
なお、池の多孔質疎水性高分子を素材とするンーl−に
おいても、微細孔の平均孔径か0.1〜10μmの範囲
Vこある場合には水蒸気に対する抵抗は非常Vこ小さい
。促って、このシートにより形成さねる流路ユニットで
け、中空部に水を1侍でき、水を四遇させず水蒸気だけ
が乾燥空気金7JO湿するために外部に放出さハるとい
う促米にない1ffll勘的な加湿器全構成で微るとと
もに、水の蒸発面積も増大できる。さらに第2図及び第
3図のような構成の加湿器にすハば、水の蒸発[fi積
を大巾に増大でき、仰って加湿能力も大巾に向上で冬る
。In addition, even in the case where the material is a porous hydrophobic polymer, the resistance to water vapor is very small when the average pore diameter of the micropores is in the range of 0.1 to 10 μm. As a result, the flow path unit formed by this sheet allows water to flow into the hollow part, and only the water vapor is released to the outside to moisten the dry air without letting the water escape. The 1ffll humidifier's complete configuration, which is not available in the United States, can reduce the amount of moisture and increase the evaporation area of water. Furthermore, if a humidifier is configured as shown in FIGS. 2 and 3, the evaporation product of water can be greatly increased, and the humidifying capacity can also be greatly improved.
この発明による加湿器は第2図あるいけ第3図の流路ユ
ニット’1ケーシングに納め、エアコンやヒーター寺の
乾燥空気の出口に敗り付けて使用するが、加湿4として
独立に使用する場合にけファンやブロアー等の送風器と
組み合わせて使用することもできる。The humidifier according to the present invention is housed in the flow path unit '1 casing shown in Figure 2 or Figure 3, and is used by being connected to the dry air outlet of an air conditioner or heater, but when used independently as a humidifier 4. It can also be used in combination with a blower such as a fan or blower.
6発(7)の効果〕
以上説明したように、この発明によハば、水の通過で防
止し、水蒸気全通過させつる多孔質疎水性高分子素材で
形成した流路全部分的に内咲接合した流路ユニットを有
し、上記流路ユニットの一端部より上記流路ユニット囚
に水を供給し、上記流路ユニットの外周に送風した空気
に上記流路ユニットの多孔質疎水性高分子素材を通過し
た水魚りt含ませて加湿することにより、水の自重によ
る横方向の膨f′1全防止で玉、水の蒸発面積か増大し
、さらに空気流が乱流となり/10湿能力の増大する1
Jll]湿器が寿らねる効果がある。Effect of 6 shots (7)] As explained above, according to the present invention, the flow channel formed of a porous hydrophobic polymer material that prevents the passage of water and allows all the water vapor to pass through is partially internalized. water is supplied to the flow path unit from one end of the flow path unit, and the air blown around the outer periphery of the flow path unit has a highly porous hydrophobic structure. By humidifying the water that has passed through the molecular material, the lateral expansion f'1 due to the water's own weight is completely prevented, increasing the evaporation area of the water and making the air flow more turbulent. Increased ability 1
Jll] It has the effect of extending the life of the humidifier.
第1図はこの発明に係わる流路ユニットの一実施例を表
わす斜視図、第2図(a)け肩1図の流路ユニット?固
述した状態を示す斜視図、(blσその晧面図、第3図
はこの発明の流路ユニット?配タリした710湿器の一
実刈例を示す斜視図、第4図にこの発明と先行技術の加
湿器の加湿特性図、第51:XJ (alけ先行技術に
係わる中空構造を味っための枠構造を示す斜視図、(b
lけその断面図である。
図において、(2)は給排水口、(3)に多孔質シート
、(4;ぽ流路ユニット、(6)にスペーサ、(6)は
給排水用7パイプであり、矢印馨)、(ロ)げ空気の#
、h を表わす。FIG. 1 is a perspective view showing one embodiment of a flow path unit according to the present invention, and FIG. 2(a) shows a shoulder unit of the flow path unit shown in FIG. 3 is a perspective view showing an example of a 710 humidifier equipped with a flow path unit according to the present invention, and FIG. 4 is a perspective view showing the state described above. Humidification characteristic diagram of the humidifier of the prior art, No. 51:
FIG. In the figure, (2) is a water supply and drainage port, (3) is a porous sheet, (4 is a flow path unit, (6) is a spacer, and (6) is 7 pipes for water supply and drainage. # of air
, h.
Claims (4)
疎水性高分子素材で形成した流路を部分的に内接接合し
た流路ユニットを有し、上記流路ユニットの一端部より
上記流路ユニット内に水を供給し、上記流路ユニットの
外周に送風した空気に上記流路ユニットの多孔質疎水性
高分子素材を通過した水蒸気を含ませて加湿するように
した加湿器。(1) It has a flow path unit in which a flow path formed of a porous hydrophobic polymer material that can prevent the passage of water and allow water vapor to pass through is partially internally joined, and from one end of the flow path unit. A humidifier that supplies water into the channel unit and humidifies the air blown to the outer periphery of the channel unit by impregnating it with water vapor that has passed through a porous hydrophobic polymer material of the channel unit.
た特許請求の範囲第1項記載の加湿器。(2) The humidifier according to claim 1, wherein water is discharged from the other end of the flow path unit.
を並行な細流路に分割するようにした特許請求の範囲第
1項又は第2項記載の加湿器。(3) The humidifier according to claim 1 or 2, wherein the inscribed joint is a plurality of parallel linear joints, and the flow path is divided into parallel narrow flow paths.
列されている特許請求の範囲第1項ないし第3項のいず
れかに記載の加湿器。(4) The humidifier according to any one of claims 1 to 3, wherein a plurality of flow path units are arranged with spaces between them.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP19616684A JPS6172949A (en) | 1984-09-17 | 1984-09-17 | Humidifier |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP19616684A JPS6172949A (en) | 1984-09-17 | 1984-09-17 | Humidifier |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS6172949A true JPS6172949A (en) | 1986-04-15 |
Family
ID=16353302
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP19616684A Pending JPS6172949A (en) | 1984-09-17 | 1984-09-17 | Humidifier |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS6172949A (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH01102637U (en) * | 1987-12-28 | 1989-07-11 | ||
JPH0464840A (en) * | 1989-09-05 | 1992-02-28 | Oobekusu Kk | Liquid gasification device |
US5273689A (en) * | 1991-07-05 | 1993-12-28 | W. L. Gore & Associates, Inc. | Water-evaporation conduit for a humidifier |
US6474628B1 (en) | 1909-03-01 | 2002-11-05 | Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. | Air humidification |
CN113266906A (en) * | 2021-04-08 | 2021-08-17 | 马鞍山师范高等专科学校 | Portable humidifying device |
-
1984
- 1984-09-17 JP JP19616684A patent/JPS6172949A/en active Pending
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6474628B1 (en) | 1909-03-01 | 2002-11-05 | Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. | Air humidification |
JPH01102637U (en) * | 1987-12-28 | 1989-07-11 | ||
JPH0464840A (en) * | 1989-09-05 | 1992-02-28 | Oobekusu Kk | Liquid gasification device |
US5273689A (en) * | 1991-07-05 | 1993-12-28 | W. L. Gore & Associates, Inc. | Water-evaporation conduit for a humidifier |
CN113266906A (en) * | 2021-04-08 | 2021-08-17 | 马鞍山师范高等专科学校 | Portable humidifying device |
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