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JP5524802B2 - Nanomist and negative ion generator - Google Patents
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JP5524802B2 - Nanomist and negative ion generator - Google Patents

Nanomist and negative ion generator Download PDF

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JP5524802B2
JP5524802B2 JP2010236327A JP2010236327A JP5524802B2 JP 5524802 B2 JP5524802 B2 JP 5524802B2 JP 2010236327 A JP2010236327 A JP 2010236327A JP 2010236327 A JP2010236327 A JP 2010236327A JP 5524802 B2 JP5524802 B2 JP 5524802B2
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processing chamber
support shaft
lubricating oil
shaft
blower fan
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JP2012088003A (en
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佐敏 南雲
雄輝 桂
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Corona Corp
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Description

この発明は、水の破砕によって発生する自然界で発生するものと同様なナノミストとマイナスイオンを室内に供給して空気を清浄にするナノミストとマイナスイオン発生装置に関するものである。   The present invention relates to a nano mist and negative ion generator for purifying air by supplying nano mist and negative ions similar to those generated in the natural world generated by crushing water into the room.

従来よりこの種のものでは、駆動モータに送風ファンと回転体とを回転自在に取り付けて、回転させることによりナノミスト状の霧を発生させて室内を良好に加湿しようとするものであり、又駆動モータはコンパクト化や器具の重心の問題から、水を貯水する処理室の底部に備えられるものであった。   Conventionally, in this type, a fan and a rotating body are rotatably attached to a drive motor, and by rotating it, nanomist mist is generated to try to humidify the room well. The motor was provided at the bottom of the processing chamber for storing water because of the downsizing and the center of gravity of the instrument.

特許第3757889号公報Japanese Patent No. 3757889

ところでこの従来のものでは、処理室底部に備えられた駆動モータの支軸が、該処理室を貫通してその先端に送風ファンや回転体、多孔体を備えているので、回転体や多孔体の回転により、処理室内から吸い上げられ飛散する水滴が、支軸と処理室底部から立設した支持部との隙間から侵入し、駆動モータに達して該駆動モータをショートさせてしまうと言う課題を有するものであった。   By the way, in this conventional thing, since the spindle of the drive motor provided at the bottom of the processing chamber passes through the processing chamber and has a blower fan, a rotating body, and a porous body at the tip thereof, the rotating body and the porous body As a result of the rotation, the water droplets sucked up and scattered from the processing chamber enter the gap between the support shaft and the support portion standing from the bottom of the processing chamber, reach the drive motor, and short the drive motor. I had it.

この発明はこの点に着目し上記課題を解決する為、特にその構成を、駆動モータの支軸に取り付けられ吸引口から吸引した空気を放出口から放出させる送風ファンと、前記送風ファンと同軸に取り付けられ回転することで、処理室に貯水された水を汲み上げ飛散させる回転体と、前記回転体と共に回転し該回転体から飛散した水がぶつかって破砕することで、ナノミストとマイナスイオンを発生させる多孔体とを備え、この発生したナノミストとマイナスイオンを前記送風ファンの送風で放出口から室内に放出するようにしたものに於いて、前記駆動モータを処理室下方に備えると共に、支軸を処理室底部から貯水面より上方に立設した支持部を貫通させて設け、この支持部と支軸との間には支持部と接するパッキンと支軸と接する金属製の軸スペーサとを備えると共に、該軸スペーサと接する支軸全周には下方に向かって徐々に細くなる三角形状の切り欠きを設け、この切り欠きと軸スペーサとで形成される貯留室内に潤滑油を貯留させ、支軸の回転により潤滑油が、三角形状の切り欠きの頂部に引き寄せられ、そして引き寄せられた潤滑油は軸スペーサにぶつけられ、勢いをなくして落下するが、再び三角形の昇り傾斜に沿って引き寄せられ、支軸の駆動時は順次この循環を繰り返すようにしたものである。 This invention pays attention to this point, and in order to solve the above-mentioned problem, in particular, the structure is coaxial with the blower fan, which is attached to the spindle of the drive motor and discharges air sucked from the suction port from the discharge port By attaching and rotating, the rotating body that pumps and scatters the water stored in the processing chamber, and the water that rotates together with the rotating body and splashes from the rotating body collides and crushes to generate nanomist and negative ions. A porous body, and the generated nano mist and negative ions are discharged from the discharge port into the room by blowing of the blower fan. The drive motor is provided below the processing chamber and the spindle is processed. A support part erected above the water storage surface from the bottom of the chamber is provided so as to penetrate, and between this support part and the support shaft, a packing that contacts the support part and a metal that contacts the support shaft And a triangular notch that gradually narrows downward is provided on the entire circumference of the support shaft in contact with the shaft spacer. Lubricating oil is placed in a storage chamber formed by the notch and the shaft spacer. The lubricating oil is attracted to the top of the triangular notch by the rotation of the support shaft , and the attracted lubricating oil hits the shaft spacer and falls without force, but again rises to the triangular ascending slope. It is drawn along, and this circulation is sequentially repeated when the support shaft is driven .

以上のようにこの発明によれば、貯留室内の潤滑油が支軸自身の周速度の違いによる吸引力で、三角形状の切り欠きの頂部に引き寄せられ、そして引き寄せられた潤滑油は軸スペーサにぶつけられ、勢いをなくして落下するが、再び三角形の昇り傾斜に沿って引き寄せられ、支軸の駆動時は順次この循環を繰り返すことで、常に支軸と軸スペーサとの間には潤滑油が流れていて、隙間が出来ることがなく、駆動モータのショートや破損は長期に渡って阻止出来、安心して使用出来るものである。   As described above, according to the present invention, the lubricating oil in the storage chamber is attracted to the top of the triangular notch by the suction force due to the difference in the peripheral speed of the support shaft itself, and the attracted lubricating oil is applied to the shaft spacer. Although it is bumped and falls with no momentum, it is drawn again along the rising slope of the triangle, and this circulation is repeated sequentially when the spindle is driven, so that lubricating oil is always between the spindle and the shaft spacer. It is flowing, there is no gap, and a short circuit or breakage of the drive motor can be prevented over a long period of time, and it can be used with confidence.

更に水分子付加マイナスイオン分子群が直接肌等に作用し、又肺から吸引されたマイナスイオンは血液中に入り、その還元作用で血液の酸化を阻止しアルカリ性の血液サラサラ状態とすると共に、その循環を良くし、末梢血管まで血液を行き渡らせることにより、痛みや懲りを緩和することができるものと考えられ、又マイナスイオンには、疲労回復効果、精神安定効果、血液の浄化効果、抵抗力の増進効果、自律神経調整効果等があり、更にナノミストによって、空気中の隅々まで行き渡り汚れた空気や細菌を抑制し、臭いまでも分解するもので、脱臭効果、除塵効果、除菌効果、勿論加湿効果があるものであり、この加湿はベトツキがないサラサラで潤いのある空気で、毛穴からの浸透でお肌と髪の潤いを保つ効果を有するものである。   In addition, water molecule-added negative ion molecules directly act on the skin, and the negative ions sucked from the lungs enter the blood, and the reduction action prevents blood oxidation, resulting in an alkaline blood smooth state. It is thought that pain and discipline can be alleviated by improving circulation and spreading blood to peripheral blood vessels. Negative ions have fatigue recovery effect, mental stability effect, blood purification effect, resistance In addition, the nano mist suppresses dirty air and bacteria and suppresses dirty air and bacteria, and even decomposes odors. Deodorizing effect, dust removing effect, sanitizing effect, Of course, it has a humidifying effect, and this humidification is smooth and moist air with no stickiness, and has an effect of keeping the skin and hair moist by penetration from the pores.

この発明の一実施形態を示すナノミストとマイナスイオン発生装置の概略構成図。BRIEF DESCRIPTION OF THE DRAWINGS The schematic block diagram of the nano mist and anion generator which shows one Embodiment of this invention. 同要部説明図。FIG. 同電気回路図。The electric circuit diagram.

次にこの発明の一実施形態を図面に基づいて説明する。
1はナノミストとマイナスイオン発生装置で、内方中央部には凹状の処理室2が形成され、この処理室2にはカートリッジ式の給水タンク(図示せず)からの給水が供給され、落差方式で所定水位で水を貯水するものである。
Next, an embodiment of the present invention will be described with reference to the drawings.
Reference numeral 1 denotes a nano mist and negative ion generator. A concave processing chamber 2 is formed in the center of the inside, and the processing chamber 2 is supplied with water from a cartridge-type water tank (not shown). The water is stored at a predetermined water level.

3は前記処理室2の下方に備えられた駆動モータで、支軸4を処理室2底部から貯水面上方まで立設した支持部5を水密に貫通させ、この支軸4の上端には細い縦羽根を複数並設し円状としたシロッコファンから成る送風ファン6が設けられ、回転することによって、器具背面上部の吸引口7から室内空気を吸引し、処理室2内に上部から垂下して送風ファン6を覆った空気案内筒8内に流入して、送風ファン6に吸引された後に、空気案内筒8下端と水面との隙間から該空気案内筒8と処理室2との流通隙間9を上昇し、器具前面上部の放出口10から室内に放出する送風経路11を形成しているものである。   Reference numeral 3 denotes a drive motor provided below the processing chamber 2, and the support shaft 5 standing upright from the bottom of the processing chamber 2 to the upper surface of the water storage is penetrated in a watertight manner, and the upper end of the support shaft 4 is thin. A blower fan 6 made of a sirocco fan having a plurality of vertical blades arranged side by side is provided, and by rotating, the indoor air is sucked from the suction port 7 at the upper part of the back of the instrument and is suspended from the top into the processing chamber 2. After flowing into the air guide cylinder 8 covering the blower fan 6 and being sucked by the blower fan 6, the flow gap between the air guide cylinder 8 and the processing chamber 2 from the gap between the lower end of the air guide cylinder 8 and the water surface. 9 is formed, and the ventilation path 11 which discharges | emits in the room | chamber interior from the discharge port 10 of the instrument front upper part is formed.

12は前記送風ファン6と同軸に取り付けられ回転することで、処理室2に貯水された水を汲み上げ、上端の複数の飛散穴13から外方に飛散させる下端に向かって徐々に小径となる擂り鉢状の回転体で、この回転体12の上部外周には飛散した水がぶつかって破砕することで、ナノミストとマイナスイオンを発生させるスリット、パンチングメタル、金網等から成る多孔体14が、飛散穴13と対向する位置に垂下して備えられている。   12 is coaxially mounted with the blower fan 6 and rotates, thereby pumping up water stored in the processing chamber 2 and gradually reducing the diameter toward the lower end from the plurality of scattering holes 13 at the upper end to the outside. A porous body 14 made of a slit, punching metal, wire mesh, or the like that generates nano mist and negative ions when the scattered water collides with the upper outer periphery of the rotating body 12 by a bowl-shaped rotating body. 13 is provided at a position facing 13.

前記駆動モータ3の支軸4と支持部5との間には、支持部5と接する断面略S字状のゴム製のパッキン15と、該パッキン15と支軸4との間に挿入された断面逆L字状で金属からなる軸スペーサ16とを備え、更にこの軸スペーサ16と対向する支軸4全周には、下方に向かって徐々に細くなる三角形状の切り欠き17を設け、この切り欠き17と軸スペーサ16とで形成される貯留室18内には潤滑油19を貯留するものである。   Between the support shaft 4 and the support portion 5 of the drive motor 3, a rubber packing 15 having a substantially S-shaped cross section in contact with the support portion 5 and inserted between the packing 15 and the support shaft 4. A shaft spacer 16 made of a metal having an inverted L-shaped cross section is provided, and a triangular notch 17 that gradually narrows downward is provided on the entire circumference of the support shaft 4 facing the shaft spacer 16. Lubricating oil 19 is stored in a storage chamber 18 formed by the notch 17 and the shaft spacer 16.

20は駆動モータ3の下に備えた保管タンクで、電動開閉弁21を途中に設けた連絡パイプ22を介して処理室2と連通し、運転停止時の自動清掃運転時には、制御回路23からの信号で電動開閉弁21を開成して、処理室2内の貯水を保管タンク20へ移して該処理室2を空の状態にするものである。   A storage tank 20 is provided below the drive motor 3 and communicates with the processing chamber 2 through a connection pipe 22 provided with an electric on-off valve 21 in the middle. The electric on-off valve 21 is opened by a signal, and the water stored in the processing chamber 2 is transferred to the storage tank 20 to make the processing chamber 2 empty.

前記制御回路23は、運転停止スイッチ24からの信号で、駆動モータ3の駆動を停止させて運転停止するが、これと同時に制御回路23内のタイマ手段25が駆動開始して自動的に清掃運転に入るもので、所定時間ここでは5分間のカウントを行うが、この間に前記したように処理室2内を空の状態として、駆動モータ3を再駆動させ送風ファン6及び回転体12及び多孔体14を回転させて付着している水を切るものであり、又これと同時に吸引口7近傍に備えられた気化用ヒータ26にもタイマ手段25を介して通電され、回転している送風ファン6の給気で温風となって、送風ファン6及び多孔体14、回転体12、処理室2と順に送風されることで、これらの湿気をなくして乾燥させて、カビや雑菌の発生を阻止して常に清潔な状態から運転開始出来るように自動的な清掃運転を行うようにしたものである。   The control circuit 23 stops driving by stopping the driving of the drive motor 3 by a signal from the operation stop switch 24. At the same time, the timer means 25 in the control circuit 23 starts driving to automatically perform the cleaning operation. In this case, the count for 5 minutes is performed for a predetermined time, but during this time, the interior of the processing chamber 2 is emptied as described above, and the drive motor 3 is re-driven to drive the blower fan 6, the rotating body 12, and the porous body. 14 rotates the attached water, and at the same time, the vaporizing heater 26 provided in the vicinity of the suction port 7 is also energized through the timer means 25 and is rotated. It becomes warm air by supplying air and is blown in the order of the blower fan 6, the porous body 14, the rotating body 12, and the processing chamber 2, thereby eliminating these moisture and preventing generation of mold and bacteria. And always clean It is obtained to perform the automatic cleaning operation to allow start-from.

次にこの一実施形態の作動について説明する。
今運転が開始されれば、制御回路23を介して駆動モータ3が駆動開始し、これにより支軸4を介して送風ファン6が回転して吸引口7から室内空気が吸引され、又これと同時に同軸の回転体12も回転して、処理室2に貯水されている水を回転による遠心力で汲み上げ、飛散穴13から外周に飛散させることで多孔体14にぶつかり、そして多孔体14の全周壁に形成した多数のスリットや金網やパンチングメタル等を、通過させたり、ぶつけて破砕させることで、水の粒子を微細化してナノメートル(nm)サイズの微細水滴を生成すると共に、この水の粒子の微細化によるレナード効果でマイナスイオンを発生させるものである。
Next, the operation of this embodiment will be described.
When the current operation is started, the drive motor 3 starts to be driven via the control circuit 23, whereby the blower fan 6 is rotated via the support shaft 4 and the indoor air is sucked from the suction port 7, and At the same time, the coaxial rotating body 12 also rotates, pumps up the water stored in the processing chamber 2 by the centrifugal force of rotation, and splashes to the outer periphery from the scattering hole 13, and hits the porous body 14. Many slits, metal mesh, punching metal, etc. formed on the peripheral wall are passed or crushed by crushing to make water particles fine and produce nanometer (nm) size water droplets. The negative ions are generated by the Leonard effect due to the refinement of the particles.

そしてここに前記した送風ファン6で給気された室内空気が送風され、ナノミストを含んで空気案内筒8下端と水面との隙間から該空気案内筒8と処理室2との流通隙間9を上昇する段階で、大粒の水滴は水中に落下してナノサイズのミストのみが流通隙間8を上昇し、又送風中のマイナスイオンも同時に放出口10から室内に放出されるものである。   The room air supplied by the blower fan 6 is blown here, and the flow gap 9 between the air guide tube 8 and the processing chamber 2 is raised from the gap between the lower end of the air guide tube 8 and the water surface, including nano mist. At this stage, the large water droplets fall into the water, and only the nano-sized mist rises through the flow gap 8, and the negative ions being blown are simultaneously released into the room from the discharge port 10.

そしてこれにより、水分子付加マイナスイオン分子群が直接肌等に作用し、又肺から吸引されたマイナスイオンは血液中に入り、その還元作用で血液の酸化を阻止しアルカリ性の血液サラサラ状態とすると共に、その循環を良くし、末梢血管まで血液を行き渡らせることにより、痛みや懲りを緩和することができるものと考えられ、又マイナスイオンには、疲労回復効果、精神安定効果、血液の浄化効果、抵抗力の増進効果、自律神経調整効果等があり、更にナノミストによって、空気中の隅々まで行き渡り汚れた空気や細菌を抑制し、臭いまでも分解するもので、脱臭効果、除塵効果、除菌効果、勿論加湿効果があるものであり、この加湿はベトツキがないサラサラで潤いのある空気で、毛穴からの浸透でお肌と髪の潤いを保つ効果を有するものである。   As a result, the negative ion molecule group with water molecules acts directly on the skin, and the negative ions sucked from the lungs enter the blood, and the reduction action prevents the oxidation of the blood, resulting in an alkaline blood smooth state. At the same time, it is thought that pain and discipline can be relieved by improving the circulation and spreading blood to the peripheral blood vessels, and negative ions have fatigue recovery effect, mental stability effect, blood purification effect It has a resistance enhancement effect, an autonomic nerve adjustment effect, etc., and nano mist spreads to every corner of the air to suppress dirty air and bacteria, and even decomposes odors, deodorizing effect, dust removing effect, removing It has a fungicidal effect, of course, a humidifying effect, and this humidification is smooth and moist air with no stickiness and has the effect of keeping the skin and hair moistened by penetration from the pores It is intended.

一方駆動モータ3の駆動により支軸4を介して回転する送風ファン6や回転体12や多孔体14により、飛散する水滴が支軸4や支持部5にも付着し、ここを伝って駆動モータ3に侵入及び滴下しようとするが、ここでは貯留室18内の潤滑油19が支軸4自身の半径差からくる周速度の違いによる吸引力で、三角形状の切り欠き17の頂部に引き寄せられ、そして引き寄せられた潤滑油19は軸スペーサ16にぶつけられ、勢いをなくして落下するが、再び三角形の昇り傾斜に沿って引き寄せられ、支軸4の駆動時は順次この循環を繰り返すことで、常に支軸4と軸スペーサ16との間には潤滑油19が流れていて、隙間が出来ることがなく、水滴の漏れによる駆動モータ3のショートや破損は長期に渡って阻止出来、安心して使用出来るものである。   On the other hand, splashing water droplets also adhere to the support shaft 4 and the support portion 5 by the blower fan 6, the rotating body 12 and the porous body 14 that rotate via the support shaft 4 by driving of the drive motor 3. In this case, the lubricating oil 19 in the storage chamber 18 is attracted to the top of the triangular notch 17 by the suction force due to the difference in peripheral speed due to the difference in radius of the support shaft 4 itself. Then, the attracted lubricating oil 19 is struck against the shaft spacer 16 and falls without losing momentum, but is drawn again along the rising slope of the triangle, and when the support shaft 4 is driven, this circulation is repeated sequentially. Lubricating oil 19 always flows between the support shaft 4 and the shaft spacer 16, there is no gap, and the drive motor 3 can be prevented from being short-circuited or damaged due to water droplet leakage over a long period of time. Can Than is.

更に回転駆動する支軸4と、それを支持する軸スペーサ16との間には、前記したように引き寄せられたり落下する潤滑油19が位置し、支軸4の駆動は滑らかでスムーズに行われるものであり、又この潤滑油19は周速度の相違により自然循環しているので、摩擦による温度上昇の心配がなく、潤滑油本来の潤滑が常に得られるものである。   Further, the lubricating oil 19 that is attracted or dropped as described above is positioned between the support shaft 4 that rotates and the shaft spacer 16 that supports the support shaft 4, and the support shaft 4 is driven smoothly and smoothly. Since the lubricating oil 19 circulates naturally due to the difference in peripheral speed, there is no fear of temperature rise due to friction, and the original lubricating oil can always be obtained.

1 ナノミストとマイナスイオン発生装置
2 処理室
3 駆動モータ
4 支軸
5 支持部
6 送風ファン
7 吸引口
15 パッキン
16 軸スペーサ
17 切り欠き
18 貯留室
19 潤滑油
DESCRIPTION OF SYMBOLS 1 Nano mist and anion generator 2 Processing chamber 3 Drive motor 4 Support shaft 5 Support part 6 Blower fan 7 Suction port 15 Packing 16 Shaft spacer 17 Notch 18 Reservoir chamber 19 Lubricating oil

Claims (1)

駆動モータの支軸に取り付けられ吸引口から吸引した空気を放出口から放出させる送風ファンと、前記送風ファンと同軸に取り付けられ回転することで、処理室に貯水された水を汲み上げ飛散させる回転体と、前記回転体と共に回転し該回転体から飛散した水がぶつかって破砕することで、ナノミストとマイナスイオンを発生させる多孔体とを備え、この発生したナノミストとマイナスイオンを前記送風ファンの送風で放出口から室内に放出するようにしたものに於いて、前記駆動モータを処理室下方に備えると共に、支軸を処理室底部から貯水面より上方に立設した支持部を貫通させて設け、この支持部と支軸との間には支持部と接するパッキンと支軸と接する金属製の軸スペーサとを備えると共に、該軸スペーサと接する支軸全周には下方に向かって徐々に細くなる三角形状の切り欠きを設け、この切り欠きと軸スペーサとで形成される貯留室内に潤滑油を貯留させ、支軸の回転により潤滑油が、三角形状の切り欠きの頂部に引き寄せられ、そして引き寄せられた潤滑油は軸スペーサにぶつけられ、勢いをなくして落下するが、再び三角形の昇り傾斜に沿って引き寄せられ、支軸の駆動時は順次この循環を繰り返すようにした事を特徴とするナノミストとマイナスイオン発生装置。 A blower fan that is attached to the spindle of the drive motor and discharges air sucked from the suction port from the discharge port, and a rotating body that is mounted coaxially with the blower fan and rotates to pump up and store the water stored in the processing chamber And the porous body that generates nano-mist and negative ions by colliding with and crushing the water that is rotated together with the rotary body and scattered from the rotary body, and the generated nano-mist and negative ions are blown by the blower fan. In the apparatus that discharges from the discharge port into the room, the drive motor is provided below the processing chamber, and the support shaft is provided through the support portion that is erected above the water storage surface from the bottom of the processing chamber. Between the support portion and the support shaft, there is provided a packing in contact with the support portion and a metal shaft spacer in contact with the support shaft. Outs triangular cut which tapers toward the provided to store the lubricating oil reservoir chamber formed in this cutout and the shaft spacer, lubricating oil by the rotation of the support shaft, triangular cutouts The lubricating oil that has been drawn to the top and then is struck by the shaft spacer and drops without momentum, but is drawn again along the rising slope of the triangle, and this circulation is repeated sequentially when the spindle is driven. Nano mist and negative ion generator characterized by that.
JP2010236327A 2010-10-21 2010-10-21 Nanomist and negative ion generator Active JP5524802B2 (en)

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JPH0299797A (en) * 1988-10-04 1990-04-11 Hitachi Ltd Internal pump for nuclear reactor
JP3765595B2 (en) * 1995-05-02 2006-04-12 日機装株式会社 Shaft seal of impeller shaft of vertical centrifugal pump
JP4170709B2 (en) * 2002-08-30 2008-10-22 九州日立マクセル株式会社 Negative ion generator
JP2005220776A (en) * 2004-02-04 2005-08-18 Asmo Co Ltd Fluid pump

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