JP2007181661A - Mask for supplying gas for inhalation - Google Patents

Mask for supplying gas for inhalation Download PDF

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JP2007181661A
JP2007181661A JP2006328138A JP2006328138A JP2007181661A JP 2007181661 A JP2007181661 A JP 2007181661A JP 2006328138 A JP2006328138 A JP 2006328138A JP 2006328138 A JP2006328138 A JP 2006328138A JP 2007181661 A JP2007181661 A JP 2007181661A
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inhalation
nose
gas
oxygen
partition wall
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JP4988320B2 (en
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Shin Otani
慎 大谷
Takamitsu Okayama
貴光 岡山
Tongou Chin
敦豪 陳
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Teijin Pharma Ltd
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Teijin Pharma Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a supply implement for a gas for inhalation, capable of preventing drying of the nasal cavity and nosebleed due to the contact of the supply implement with the mucous membrane of the nasal cavity, making it possible to inhale oxygen even during oral respiration without being affected by the disturbance of winds or the like, being easily mounted and surely supplying an oxygen enriched gas. <P>SOLUTION: The mask 12 for supplying the gas for inhalation is provided with a dome-like partition wall to be in contact with the outer peripheral surface of the external nose of a user for covering the external nose. An inhalation gas feeding port 13 for feeding the gas for inhalation is provided on the partition wall, and an inhalation gas feeding means 10 for feeding the gas for inhalation from the inhalation gas feeding port 13 to a space part existing at the lower part of the nasal ala part to the nasal apex part of the user is provided. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明は、吸入用ガスを吸入する際に使用する吸入用マスクに関する。更に詳細には、在宅酸素療法等に使用される酸素富化ガスを、吸入用具が鼻孔に接触せず、かつ、吸入用具を安定に固定することが可能であり、かつ、鼻・口何れからも吸入でき、かつ、風等の外乱の影響なしに供給する吸入用ガス供給用マスクに関するものである。   The present invention relates to an inhalation mask used when inhaling an inhalation gas. More specifically, the oxygen-enriched gas used for home oxygen therapy, etc., allows the inhaler to be in contact with the nostril and to stably fix the inhaler, and from either the nose or mouth. The present invention also relates to an inhalation gas supply mask that can be inhaled and that is supplied without being affected by disturbance such as wind.

在宅酸素療法等の酸素吸入には、一般に鼻孔カニューラが使用されている。鼻孔カニューラは、酸素濃縮器や酸素ボンベから供給される酸素富化ガスを使用者の鼻孔まで導くために、途中で分岐したカニューラを左右両耳に掛けて固定し、患者鼻腔に挿入する酸素供給管(プロング)を有する鼻部分岐部にカニューラ開放端を接続することで酸素富化ガスを使用者鼻孔に供給する用具である。   Nasal cannula is generally used for oxygen inhalation such as home oxygen therapy. The nostril cannula is an oxygen supply that is inserted into the patient's nasal cavity by fixing the cannula branched in the middle to the left and right ears to guide the oxygen-enriched gas supplied from the oxygen concentrator or oxygen cylinder to the user's nostril. It is a tool for supplying oxygen-enriched gas to a user's nostril by connecting a cannula open end to a nose branch having a tube (prong).

鼻孔カニューラはシンプルな形状の酸素投与具であり、使い易く、安価で安全に酸素を吸入できるため、長期酸素療法には適した吸入用具である。一方で、以下の不利益な点を含んでいる。
1.鼻腔内の乾燥(呼気時に乾燥した酸素富化ガスが鼻腔内へ流入)
2.鼻腔粘膜の損傷(プロングが鼻孔に接触し出血)
3.口呼吸の未対応(鼻にプロングを挿入している為、口呼吸では酸素吸入効率が低下)
4.外観の悪化(鼻から左右の頬部を通り耳に掛けた2本の酸素供給チューブが目立つ)
The nostril cannula is a simple oxygen delivery device that is easy to use, inexpensive and can safely inhale oxygen, and is therefore an inhalation device suitable for long-term oxygen therapy. On the other hand, the following disadvantages are included.
1. Nasal dryness (dry oxygen-enriched gas flows into the nasal cavity during exhalation)
2. Damage to the nasal mucosa (prongs touch the nostril and bleed)
3. No support for mouth breathing (prongs are inserted into the nose, so oxygen breathing efficiency decreases with mouth breathing)
4). Deterioration in appearance (2 oxygen supply tubes from the nose to the ears through the left and right cheeks are conspicuous)

上記不利益を解決する形態として、特表2003-533296号公報には、ヘッドセット型の支持体により酸素富化ガス供給チューブを固定し、かつ、外鼻部に対し非接触で酸素投与する手段が開示されている。このヘッドセット型の酸素投与システムは、鼻孔カニューラのようなガスを投与するために鼻孔に挿入するプロングは使用せず、酸素富化ガス出口にディフューザを設け、鼻・口近辺に酸素富化ガスを供給するシステムであり、呼気時には酸素富化ガスが鼻腔内に流入しないことから鼻腔内の乾燥が生じ難い特徴を有する。またプロングを挿入しないため、酸素投与具の取り外しによる鼻出血も起きない。また、口呼吸・鼻呼吸いずれでも酸素を吸入することができる。さらに、ヘッドセット構造により、酸素供給チューブを左右の頬・耳へ掛けずに固定できる為、外観は悪化されない。   As a form for solving the above disadvantages, Japanese Patent Publication No. 2003-533296 discloses a means for fixing an oxygen-enriched gas supply tube with a headset-type support and administering oxygen without contact to the outer nose. Is disclosed. This headset-type oxygen delivery system does not use a prong inserted into the nostril to administer gas like a nostril cannula, has a diffuser at the oxygen-enriched gas outlet, and oxygen-enriched gas near the nose and mouth In the exhalation, the oxygen-enriched gas does not flow into the nasal cavity, so that the nasal cavity is difficult to dry. In addition, no prongs are inserted, so no nasal bleeding occurs due to removal of the oxygenator. Moreover, oxygen can be inhaled by both mouth breathing and nasal breathing. In addition, the headset structure allows the oxygen supply tube to be fixed without being placed on the left and right cheeks and ears, so the appearance is not deteriorated.

その一方で、風などの外乱が生じた際にはディフューザからの酸素富化ガスの流れは乱れ、鼻・口に酸素富化ガスが届かない危険がある。また、このシステムでは、外鼻と上記ディフューザは非接触であるため、ディフューザの位置を自由に調節することができる反面、鼻・口付近と外れた位置にディフューザを固定してしまい、酸素富化ガスを吸入できない恐れがある。   On the other hand, when a disturbance such as wind occurs, the flow of oxygen-enriched gas from the diffuser is disturbed, and there is a risk that the oxygen-enriched gas will not reach the nose and mouth. In addition, in this system, the outer nose and the diffuser are not in contact with each other, so the position of the diffuser can be adjusted freely, but the diffuser is fixed at a position away from the nose and mouth, resulting in oxygen enrichment. There is a risk that gas cannot be inhaled.

また1980年8月12日に公表されたUS4216769号には,外鼻を覆うカップ形状の、上部が開放し、下部に底面を持ち、人中部(鼻と唇の間)で支える酸素投入手段が開示されている。このシステムでは、カップ形状の内部に酸素富化ガスを投入し、底面上で乾燥した酸素富化ガスと外気を混合させて患者に投与する方法を採用している。この手法は人中に接点があるものの、鼻孔内にプロングを挿入せずに酸素供給を実現するため、鼻孔・鼻粘膜を損傷することはなく、また、呼気時には乾燥した酸素が鼻腔外へ流出することから、前記した鼻孔カニューラの課題である鼻腔乾燥・出血の発生を回避することができる。また、かかる酸素投与手段にはカップ形状の覆い構造を持つため、風などの外乱の影響は小さい特徴を有している。しかし、鼻孔と口は人中に接したカップ底面で隔離されているため、患者が口で呼吸をする場合は、酸素富化ガスを効率的に吸入することができない。   Also, US4216769 published on August 12, 1980 has a cup-shaped covering the outer nose with an open upper part and a bottom part at the bottom, supporting oxygen in the human body (between the nose and lips). It is disclosed. This system employs a method in which an oxygen-enriched gas is introduced into the cup shape, and the oxygen-enriched gas dried on the bottom and the outside air are mixed and administered to the patient. Although this method has contact points in humans, it does not damage the nostril and nasal mucosa because oxygen is supplied without inserting prongs into the nostrils, and dry oxygen flows out of the nostrils during expiration. Therefore, it is possible to avoid the occurrence of nasal dryness / bleeding, which is a problem of the above-mentioned nostril cannula. In addition, since the oxygen administration means has a cup-shaped cover structure, the influence of disturbance such as wind is small. However, since the nostril and mouth are isolated by the bottom of the cup in contact with the person, when the patient breathes through the mouth, the oxygen-enriched gas cannot be efficiently inhaled.

更に1992年4月3日に公表されたUS5233978号には、側面に外郭構造を持つ下部が開放した酸素投入手段が開示されている。このシステムは、外鼻孔に非接触で酸素富化ガスを投入する構造をとるため、同様に前記鼻孔カニューラの課題である鼻孔乾燥・出血を回避することができる。また外郭構造が風避けの働きをしている。さらに口呼吸でも酸素を吸入することができる。しかし、外郭構造が口を覆う為、圧迫感が強く、食事や会話に支障を来たす恐れがある。   Further, US5233978 published on April 3, 1992 discloses an oxygen input means having an open lower part having an outer structure on the side surface. Since this system has a structure in which the oxygen-enriched gas is introduced in a non-contact manner into the outer nostril, it is possible to avoid the nostril drying / bleeding, which is also a problem of the nostril cannula. The outer structure works to avoid wind. Furthermore, oxygen can be inhaled by mouth breathing. However, because the outer structure covers the mouth, there is a strong sense of pressure, which may interfere with meals and conversations.

特表2003-533296号公報Special table 2003-533296 US4216769号US4216769 US5233978号US5233978

上記のように、現在、普及している鼻孔カニューラには、鼻腔内が乾燥すると共に、場合によっては出血するといった課題がある。また口呼吸には対応しておらず、外観が悪化する課題もある。特許文献1の方法は、風などで外気が乱れた場合や、装着位置が正常位置からずれた場合には酸素吸入できなくなる恐れがある。特許文献2記載の方法では、患者が口呼吸を行った場合には酸素を吸入することができず、特許文献3記載の方法では、外郭構造が大きいために圧迫感が強く食事や会話ができないといった課題が存在する。本願発明は、かかる課題を解決する吸入用のガス供給用具を提供するものである。   As described above, the currently popular nostril cannula has a problem that the nasal cavity is dried and sometimes bleeds. Moreover, it does not correspond to mouth breathing, and there is a problem that the appearance deteriorates. In the method of Patent Document 1, there is a possibility that oxygen cannot be inhaled when the outside air is disturbed by wind or the like, or when the mounting position is deviated from the normal position. In the method described in Patent Document 2, oxygen cannot be inhaled when the patient breathes through the mouth, and in the method described in Patent Document 3, the outer structure is large, and the feeling of pressure is strong, making it impossible to eat and talk. There is such a problem. The present invention provides a gas supply tool for inhalation that solves this problem.

かかる課題を解決する手段として本発明者は以下のマスクを見出した。
すなわち本発明は、使用者の外鼻外周面に接し、外鼻を覆うドーム状の隔壁を備えたマスクであり、該隔壁に吸入用ガスを投入する為の吸入用ガス投入ポートを備え、該吸入用ガス投入ポートから使用者の鼻翼部乃至鼻尖部の下方に存在する空間部に該吸入用ガスを投入する吸入用ガス投入手段を備えることを特徴とする吸入用ガス供給用マスクを提供するものである。
The present inventors have found the following masks as means for solving such problems.
That is, the present invention is a mask provided with a dome-shaped partition wall that is in contact with the outer peripheral surface of the user's outer nose and covers the outer nose, and is provided with an inhalation gas input port for supplying an inhalation gas to the partition wall, Provided is an inhalation gas supply mask comprising inhalation gas introduction means for injecting the inhalation gas from an inhalation gas introduction port into a space portion present below a user's nose wing or tip. Is.

かかる外鼻を覆うドーム状の隔壁を備えたマスクには、外鼻を覆う外郭構造を備え、鼻尖付近に沿ってカーブし、鼻橋・外鼻孔を覆う形状の底面を備え、その底面と外郭に覆われた空間を外鼻孔付近に備え、その空間に酸素富化ガスを投入する手段を有する。   Such a mask having a dome-shaped partition wall covering the outer nose has an outer structure covering the outer nose, and has a bottom surface that curves along the vicinity of the nose tip and covers the nose bridge and outer nostril. A space covered with a gas is provided near the outer nostril, and means for injecting oxygen-enriched gas into the space is provided.

またマスクの底部である使用者の鼻翼部乃至鼻尖部の下方部分の該隔壁の一部に開口部を備え、開口部から酸素富化ガスを口部へ供給する手段を有する。開口部の一態様としては、該隔壁の内、使用者の鼻翼部乃至鼻尖部の下方部分の該隔壁と、使用者の人中部との接面に斬り欠き部を備える。この斬り欠き部は開口角度を調節する手段を備えることで、多様な形状の外鼻にマスクのサイズを合わせる手段を有する。
また、外鼻に接する該ドーム状の隔壁には、多様な形状の外鼻に隔壁の広がり角度を合わせ固定する手段を有する。
In addition, an opening is provided in a part of the partition wall below the user's nose wing or tip of the nose tip, which is the bottom of the mask, and means for supplying oxygen-enriched gas from the opening to the mouth. As one mode of the opening, a notch portion is provided on a contact surface between the partition wall of the user's nose wing part or the lower part of the nose tip part and the middle part of the user. The cutout portion has means for adjusting the opening angle, thereby having means for adjusting the size of the mask to variously shaped outer noses.
In addition, the dome-shaped partition wall in contact with the outer nose has a means for fixing the partition wall according to the spread angle of the partition wall to various shapes of the outer nose.

また、左右2つ、または何れか1つの呼吸用ガス投入ポートを備え、該吸入用ガス投入手段が該呼吸用ガス投入ポートと使用者の鼻翼部乃至鼻尖部の下方に存在する空間部を繋ぐチューブであり、該空間部に吸入用ガスの放出部を備えることを特徴とする吸入用ガス供給用マスクを提供するものであり、特に、該吸入用ガスが、酸素療法用の酸素ガスであることを特徴とする酸素吸入用の吸入用ガス供給用マスクを提供するものである。   In addition, two or left and / or one respiratory gas input port is provided, and the inhalation gas input means connects the respiratory gas input port and a space portion existing below the user's nose wing or nose tip. An inhalation gas supply mask is provided, which is a tube and includes a discharge portion for inhalation gas in the space, and in particular, the inhalation gas is oxygen gas for oxygen therapy An inhalation gas supply mask for inhaling oxygen is provided.

本願発明の吸入用ガス供給用マスクを用いることにより、従来の鼻孔カニューラのようにプロングを鼻孔に挿入しないため、呼気時において乾燥した酸素富化ガスは鼻腔に流入せず鼻腔外へ流出し、鼻腔粘膜の乾燥は軽減される。また、外鼻を覆う外郭構造を備えることにより、外郭構造内部の鼻孔付近に風などの外乱に影響を受けない空間を確保でき、供給された酸素富化ガスを確実に吸入することができる。またドーム形状の鼻尖に沿ったカーブを持つ外殻構造とすることにより、外鼻外周部で固定することができ、装着位置が安定し、安全に酸素を吸入できる。さらに、外鼻に接触する外郭構造には形状を調節する機能を備えるため、多様な形状の鼻に固定することができる。これにより、鼻から左右の頬・耳へ供給チューブを掛けなくともマスクを固定でき、頬部の外観悪化は軽減される。さらに、マスク開口部から酸素が口方向に押出される為、口呼吸の際にも供給された酸素富化ガスを吸入することができる。   By using the inhalation gas supply mask of the present invention, the prong is not inserted into the nostril as in the conventional nostril cannula, so that the oxygen-enriched gas that has been dried during exhalation does not flow into the nasal cavity but flows out of the nasal cavity. Drying of the nasal mucosa is reduced. Further, by providing the outer structure that covers the outer nose, a space that is not affected by disturbance such as wind can be secured in the vicinity of the nostrils inside the outer structure, and the supplied oxygen-enriched gas can be reliably sucked. In addition, by adopting an outer shell structure having a curve along the dome-shaped nose tip, it can be fixed at the outer periphery of the outer nose, the mounting position is stable, and oxygen can be safely inhaled. Furthermore, since the outer structure that contacts the outer nose has a function of adjusting the shape, the outer structure can be fixed to the nose of various shapes. As a result, the mask can be fixed without applying a supply tube from the nose to the left and right cheeks / ears, and deterioration of the appearance of the cheek is reduced. Furthermore, since oxygen is extruded from the mask opening in the mouth direction, the oxygen-enriched gas supplied during mouth breathing can be inhaled.

本願発明の吸入用ガス供給用マスクの態様例を以下に説明する。
図1に酸素ガス供給用マスクにおける外鼻を覆うドーム状の外郭構造の概略図を示す。外郭構造の上部は、鼻背1及び鼻屋2に沿って下方へ広がる斜面3を備え、外郭構造の中部は鼻尖4、鼻翼5に沿って下方に広がる覆い構造6を備え、外郭構造の下部には鼻孔7の下に位置する底面8を備えている。鼻翼5から鼻尖4の下方である鼻孔7と底面8の間には風などの外乱の影響を受けない空間9がある。マスクの外郭構造の上部斜面3は、使用者の鼻背1、鼻屋2、鼻尖4に接するため、マスクの位置が外鼻から外れることなく、安全に設置することができる。
An example of the inhalation gas supply mask of the present invention will be described below.
FIG. 1 shows a schematic view of a dome-shaped outer structure covering an outer nose in an oxygen gas supply mask. The upper part of the outer structure is provided with a slope 3 that extends downward along the back of the nose 1 and the nasal passage 2, and the middle part of the outer structure is provided with a covering structure 6 that extends downward along the nose tip 4 and the nose wing 5, and the lower part of the outer structure. Has a bottom surface 8 located below the nostril 7. There is a space 9 between the nostril 5 and the nostril 7 below the nose tip 4 and the bottom surface 8 that is not affected by disturbance such as wind. Since the upper slope 3 of the outer shell structure of the mask is in contact with the user's nose back 1, nose shed 2, and nose tip 4, the position of the mask can be safely installed without departing from the outer nose.

また図2は、かかる酸素ガス供給用マスクの内側を見た図である。かかる図2に示すように、外郭構造の内部には酸素富化ガスを格納する手段を備える。酸素ガス供給源10から酸素富化ガス供給チューブ11を介し、外郭構造12上にあるポート部13を通って酸素富化ガスは外郭構造12の内部に入り、外乱の影響を受けない外郭構造下部の内側14に向けて輸送される。外郭構造下部の内側14は装着すると鼻孔付近に位置する。この外郭構造内部は風などの外乱の影響を受けずに酸素富化ガスを格納することができる。また、供給チューブ11は2本に分岐しているが、この2本の供給チューブを左右の頬骨15及び耳16に掛けると、安全にマスクを固定することができる(図3)。   FIG. 2 is a view of the inside of such an oxygen gas supply mask. As shown in FIG. 2, the outer structure is provided with means for storing oxygen-enriched gas. The oxygen-enriched gas enters the outer structure 12 through the port 13 on the outer structure 12 from the oxygen gas supply source 10 through the oxygen-enriched gas supply tube 11, and is not affected by the disturbance. Transported towards the inside 14 of the car. The inner side 14 of the lower part of the outer structure is located near the nostril when worn. The inside of the outer structure can store oxygen-enriched gas without being affected by disturbances such as wind. Although the supply tube 11 is branched into two, the mask can be safely fixed by hanging the two supply tubes on the left and right cheekbones 15 and the ears 16 (FIG. 3).

しかし、供給チューブでマスクを固定する場合には、供給チューブが目立ち美観が悪化する。そこで、外郭構造の上部17に、アルミなどの可変形状の塑性金属部材18を組み込み、マスクを鼻根部乃至鼻背部で固定する機能を備えることにより、供給チューブによるマスクの固定は不要となり、図4に示す通り、1本の供給チューブ19にすることが可能であり、外観の悪化を軽減できる。   However, when the mask is fixed with the supply tube, the supply tube is conspicuous and the aesthetics deteriorate. Therefore, by incorporating a plastic metal member 18 having a variable shape such as aluminum into the upper portion 17 of the outer structure and having a function of fixing the mask at the nasal root portion or the nasal dorsal portion, the mask need not be fixed by the supply tube. As shown in FIG. 1, it is possible to make one supply tube 19, and the deterioration of the appearance can be reduced.

また、図5に示すように、本酸素供給用マスクの外郭構造の底面20と、鼻と口の間である人中との間には三日月状の斬り欠きである隙間21がある。かかる斬り欠き構造をとることで、この隙間21から呼気を排出させ、外郭構造内部における二酸化炭素の蓄積を防止することができる。また使用者が口呼吸を行った際には、隙間21から酸素富化ガスが口部へ供給される。   In addition, as shown in FIG. 5, there is a gap 21 that is a crescent cutout between the bottom surface 20 of the outer structure of the present oxygen supply mask and the person between the nose and the mouth. By adopting such a notch structure, exhaled air can be discharged from the gap 21 and accumulation of carbon dioxide inside the outer structure can be prevented. When the user performs mouth breathing, oxygen-enriched gas is supplied from the gap 21 to the mouth.

酸素富化ガス供給用マスクを装着した際の下方から見た場合の概略図を図6に示す。外郭構造の底面22と人中23の間には隙間が開いている。この隙間は先に述べたように呼気を排出すること、及び、口呼吸の際に酸素を口部へ供給することが目的であるため、形状は三日月状の斬り欠き形状に限定されず、図7に示すような開口部24を持つ底面の構造であってもよい。   FIG. 6 shows a schematic diagram when viewed from below when the oxygen-enriched gas supply mask is attached. There is a gap between the bottom 22 of the outer structure and the man 23. Since this gap is intended to discharge exhaled air and supply oxygen to the mouth during mouth breathing as described above, the shape is not limited to a crescent-shaped cutout shape. 7 may have a bottom structure having an opening 24 as shown in FIG.

マスクの材質は皮膚への装着感や刺激性等を考慮して選択され、特に柔らかい軟質シリコンを用いるのが好ましい。図8に示すような縦に切り込んだ形状の斬り欠き部25にすると、マスクの左右の大きさを調節することができ、多様な外鼻の使用者が装着可能となる。調整後のマスク形状を固定する為に、該マスクの斬り欠き部の周囲(図9)あるいはドーム状の外郭部分に、アルミなどの可変形状の塑性金属部材18を設けることも可能である。   The material of the mask is selected in consideration of the feeling of wearing on the skin, irritation and the like, and it is particularly preferable to use soft soft silicon. When the cutout portion 25 having a vertically cut shape as shown in FIG. 8 is used, the right and left sizes of the mask can be adjusted, and various external nose users can wear it. In order to fix the mask shape after adjustment, it is also possible to provide a plastic metal member 18 having a variable shape such as aluminum around the notch portion of the mask (FIG. 9) or around the dome-shaped outer portion.

また、図10に示すように、外郭構造内部に酸素富化ガスを送る手段として、酸素富化ガス供給チューブ26を外郭構造内部に通し、酸素富化ガス供給チューブ26に酸素富化ガス放出口27を備え、酸素富化ガス放出口27から酸素富化ガスを外郭構造内部へ輸送する方法も考えられる。   Further, as shown in FIG. 10, as means for sending oxygen-enriched gas into the outer structure, an oxygen-enriched gas supply tube 26 is passed through the outer structure, and the oxygen-enriched gas supply tube 26 has an oxygen-enriched gas discharge port. 27, and a method of transporting the oxygen-enriched gas from the oxygen-enriched gas discharge port 27 into the outer structure is also conceivable.

図2に示す本願発明の吸入用マスクを用いて酸素を供給した場合の酸素供給流量と吸入酸素濃度との関係を図11に示す。試験には人工肺を用い、一回換気量500[ml]、呼吸回数20[回/分]、酸素供給流量1〜5[l/分]の条件にて、人工肺の末端の酸素濃度を測定した。測定結果から明らかなように、人工肺の末端の酸素濃度は、従来使用されている鼻孔カニューラと本願発明の吸入用マスク技術とは同等であった。   FIG. 11 shows the relationship between the oxygen supply flow rate and the intake oxygen concentration when oxygen is supplied using the inhalation mask of the present invention shown in FIG. An oxygenator was used for the test, and the oxygen concentration at the end of the oxygenator was measured under the conditions of a tidal volume of 500 [ml], a respiratory rate of 20 [times / min], and an oxygen supply flow rate of 1 to 5 [l / min]. It was measured. As is apparent from the measurement results, the oxygen concentration at the end of the artificial lung was equivalent to that of the conventionally used nostril cannula and the inhalation mask technique of the present invention.

また、図2に示す吸入用マスクを用い、風が吹いている状況下で酸素供給した場合の結果を図12に示す。人工肺を用いた試験系を用い、一回換気量500[ml]、呼吸回数20[回/分]、酸素供給流量3[l/分]の条件下にて、鼻・口付近の環境風速を変化させた際の、人工肺の末端の酸素濃度を測定した。比較として、風の影響を受ける懸念のある特許文献1記載のマスクを用いた例も計測した。図12に示すように、特許文献1のような従来型のマスクでは、風が吹く環境下では吸入ガスの酸素濃度が低下するのに対し、本願発明の吸入用マスクでは風の影響が小さいことが分かる。
なお、本発明は、酸素ガス以外にも、噴霧薬、水蒸気、匂い物質などを投与する際にも適用可能である。
FIG. 12 shows the result when oxygen is supplied under the wind blowing condition using the inhalation mask shown in FIG. Using an artificial lung test system, the ambient wind speed near the nose and mouth under conditions of a tidal volume of 500 [ml], a respiratory rate of 20 [times / min], and an oxygen supply flow rate of 3 [l / min] The oxygen concentration at the end of the artificial lung was measured. As a comparison, an example using a mask described in Patent Document 1 that is likely to be affected by wind was also measured. As shown in FIG. 12, in the conventional mask as in Patent Document 1, the oxygen concentration of the inhaled gas is reduced in an environment where the wind blows, whereas in the inhalation mask of the present invention, the influence of the wind is small. I understand.
The present invention can also be applied to administration of sprays, water vapor, odorous substances and the like in addition to oxygen gas.

外鼻を覆う外郭構造を備える酸素供給用マスクにおける装着時の概略図。Schematic at the time of mounting | wearing in the mask for oxygen supply provided with the outline structure which covers an outer nose. 鼻孔と底面の間の空間に酸素を投入する手段を備える酸素供給用マスクの概略図。Schematic of the oxygen supply mask provided with a means for injecting oxygen into the space between the nostril and the bottom. 外鼻を覆う外郭構造の固定具を示す概略図。Schematic which shows the fixing tool of the outer structure which covers an outer nose. 外郭構造内部へ酸素富化ガスを投入する開口部を一つもつ手段を示す概略図。Schematic which shows a means with one opening part which inject | pours oxygen-enriched gas into an outer structure inside. 外鼻を覆う外郭構造の底面における隙間部を示す概略図。Schematic which shows the clearance gap in the bottom face of the outer structure which covers an outer nose. 外鼻を覆う外郭構造の底面における装着時の概略図。Schematic at the time of mounting | wearing in the bottom face of the outer structure which covers an outer nose. 外郭構造内部へ酸素富化ガスを投入する開口部を一つもつ手段を示す概略図。Schematic which shows a means with one opening part which inject | pours oxygen-enriched gas into an outer structure inside. 外郭構造底面の斬り欠き部の開口角度を調節する手段を示す概略図。Schematic which shows the means to adjust the opening angle of the notch part of a shell structure bottom face. 外郭構造底面の斬り欠き部の開口角度を調節し、角度を固定する手段を示す概略図。Schematic which shows the means to adjust the opening angle of the notch part of a shell structure bottom face, and to fix an angle. 外郭構造内部に開口部を持つチューブを挿入したことを示す概略図。Schematic which shows having inserted the tube which has an opening part in an outer structure. 酸素供給流量と吸入酸素濃度との関係図。The relationship diagram of oxygen supply flow rate and intake oxygen concentration. 風環境下における吸入酸素濃度の影響図。The influence figure of inhalation oxygen concentration under wind environment.

符号の説明Explanation of symbols

1 鼻背
2 鼻屋
3 鼻背、鼻屋に沿う斜面
4 鼻尖
5 鼻翼
6 鼻尖、尾翼に沿う覆い構造
7 鼻孔
8 底面
9 外乱の影響を受けない空間
10 酸素富化ガス供給源
11 酸素富化ガス供給チューブ
12 外郭構造
13 酸素富化ガス供給ポート
14 外郭構造先端部の内側
15 頬骨
16 耳
17 外郭構造の上部
18 可変形状の金属
19 供給チューブ
20 外郭構造の底面
21 隙間
22 外郭構造の底面
23 人中
24 開口部
25 斬り欠き部
26 酸素富化ガス供給チューブ
27 酸素富化ガス放出口
DESCRIPTION OF SYMBOLS 1 Nose back 2 Nasal store 3 Nose back, slope along nose store 4 Nose tip 5 Nose wing 6 Cover structure along nose tip and tail wing 7 Nostril 8 Bottom surface 9 Space not affected by disturbance 10 Oxygen-enriched gas supply source 11 Oxygen enrichment Gas supply tube 12 Outer structure 13 Oxygen-enriched gas supply port 14 Inner side of outer structure tip 15 Cheekbone 16 Ear 17 Upper part of outer structure 18 Deformable metal 19 Supply tube 20 Bottom surface of outer structure 21 Gap 22 Bottom surface of outer structure 23 Human 24 Opening 25 Cutout 26 Oxygen-enriched gas supply tube 27 Oxygen-enriched gas outlet

Claims (9)

使用者の外鼻外周面に接し、外鼻を覆うドーム状の隔壁を備えたマスクであり、該隔壁に吸入用ガスを投入する為の吸入用ガス投入ポートを備え、該吸入用ガス投入ポートから使用者の鼻翼部乃至鼻尖部の下方と該隔壁との間に形成される空間部に該吸入用ガスを投入する吸入用ガス投入手段を備えることを特徴とする吸入用ガス供給用マスク。   A mask provided with a dome-shaped partition wall that is in contact with the outer peripheral surface of the user's outer nose and covers the outer nose, and is provided with an intake gas input port for supplying an intake gas to the partition wall. An inhalation gas supply mask comprising inhalation gas introduction means for injecting the inhalation gas into a space formed between the nose wing or the tip of the nose tip of the user and the partition wall. 該隔壁の内、使用者の鼻翼部乃至鼻尖部の下方部分の該隔壁と、使用者の人中部との接面に斬り欠き部を備えることを特徴とする請求項1記載の吸入用ガス供給用マスク。   2. The gas supply for inhalation according to claim 1, further comprising a cutout portion on a contact surface between the partition wall of the user's nose wing or the lower portion of the tip of the nose and the middle part of the user. Mask. 使用者の鼻翼部乃至鼻尖部の下方部分の該隔壁の一部に、開口部を備えることを特徴とする請求項1記載の吸入用ガス供給用マスク。   The inhalation gas supply mask according to claim 1, wherein an opening is provided in a part of the partition wall below the nose wing part or nose tip of the user. 該斬り欠き部の開口角度を調節する手段を備えることを特徴とする請求項2記載の吸入用ガス供給用マスク。   The inhalation gas supply mask according to claim 2, further comprising means for adjusting an opening angle of the notch. 該開口角度を調節する手段が、該斬り欠き部隔壁に備えた塑性金属部材であることを特徴とする請求項4記載の吸入用ガス供給用マスク。   5. The inhalation gas supply mask according to claim 4, wherein the means for adjusting the opening angle is a plastic metal member provided in the notch partition wall. 該ドーム状の隔壁に、該マスクを使用者の鼻根部乃至鼻背部に固定する塑性金属部材を備えることを特徴とする請求項1乃至5何れかに記載の吸入用ガス供給用マスク。   The inhalation gas supply mask according to any one of claims 1 to 5, wherein the dome-shaped partition wall is provided with a plastic metal member for fixing the mask to a user's nose root or nose back. 1つの呼吸用ガス投入ポートを備え、該吸入用ガス投入手段が該呼吸用ガス投入ポートと使用者の鼻翼部乃至鼻尖部の下方と該隔壁との間に形成される空間部とを繋ぐチューブであり、該空間部に対し吸入用ガスを放出する放出部を備えることを特徴とする請求項1乃至6の何れかに記載の吸入用ガス供給用マスク。   A tube comprising one breathing gas inlet port, and the inhaling gas inlet means connects the breathing gas inlet port and a space formed between the user's nose wing or nasal apex and the partition wall The inhalation gas supply mask according to claim 1, further comprising a discharge portion that discharges the inhalation gas to the space portion. 左右2つの呼吸用ガス投入ポートを備え、該吸入用ガス投入手段が2つの該呼吸用ガス投入ポートと使用者の鼻翼部乃至鼻尖部の下方と該隔壁との間に形成される空間部とを繋ぐチューブであり、該空間部に対し吸入用ガスを放出する放出部を備えることを特徴とする請求項1乃至6の何れかに記載の吸入用ガス供給用マスク。   Two breathing gas inlet ports on the left and right sides, and the inhalation gas inlet means includes a space formed between the two respiratory gas inlet ports, a user's nose wing or nasal apex, and the partition wall; The inhalation gas supply mask according to claim 1, further comprising a discharge portion that discharges the inhalation gas to the space portion. 該吸入用ガスが、酸素療法用の酸素ガスであることを特徴とする請求項1乃至8の何れか1項記載の吸入用ガス供給用マスク。   The inhalation gas supply mask according to any one of claims 1 to 8, wherein the inhalation gas is an oxygen gas for oxygen therapy.
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US10413691B2 (en) 2014-08-20 2019-09-17 Hiroshima University Gas storage mask
JP2021058657A (en) * 2014-08-20 2021-04-15 レボリューショナリー メディカル デバイシーズ,インコーポレイテッド Ventilation mask
USD923775S1 (en) 2020-04-24 2021-06-29 Inland Concrete Products, Inc. Hygienic face mask

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US5233978A (en) * 1992-04-03 1993-08-10 Medway Nasal oxygen mask

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US4216769A (en) * 1978-09-29 1980-08-12 Grimes Jerry L Bi-flow nasal cup
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10413691B2 (en) 2014-08-20 2019-09-17 Hiroshima University Gas storage mask
JP2021058657A (en) * 2014-08-20 2021-04-15 レボリューショナリー メディカル デバイシーズ,インコーポレイテッド Ventilation mask
US11324909B2 (en) 2014-08-20 2022-05-10 Revolutionary Medical Devices, Inc. Ventilation mask
JP7200209B2 (en) 2014-08-20 2023-01-06 レボリューショナリー メディカル デバイシーズ,インコーポレイテッド ventilation mask
AU2021261980B2 (en) * 2014-08-20 2023-04-13 Sunmed Group Holdings, Llc Ventilation mask
AU2021261980C1 (en) * 2014-08-20 2023-10-26 Sunmed Group Holdings, Llc Ventilation mask
USD923775S1 (en) 2020-04-24 2021-06-29 Inland Concrete Products, Inc. Hygienic face mask

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