JP2019155064A - Nasal cannula - Google Patents

Abstract

To provide a nasal cannula for supplying oxygen to right and left nostrils, the nasal cannula being attached and detached simply and quickly, preventing the occurrence of a skin trouble in a use process after attachment, and suppressing deterioration in appearance.SOLUTION: A pair of nostril inserts 130 are provided on a base 120 provided at the distal end of a tube 110 so as to communicate with the tube. The base and the nostril inserts are integrally formed so as to elastically deform to an appropriate extent. The nostril inserts have an appropriate length. When the nostril inserts are inserted into the right and left nostrils, respectively, of a patient, the nostril inserts hold at least one of the columna nasi and the nasal septum from opposite sides with an appropriate elastic force, whereby the nostril inserts are attached to the nostrils.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an oxygen therapy in which, for example, a patient with a respiratory organ disease receives inhalation of oxygen (high concentration oxygen) from an oxygen supply source such as a medical oxygen concentrator or an oxygen cylinder as one of the treatment methods. It relates to the nasal cannula used.

  Various types of nasal cannulas have been proposed. Usually, a transparent and flexible polyvinyl chloride tube (main tube) is used as a base, and its proximal end is connected to an oxygen supply source. In the vicinity of the face of the user), a nostril insertion portion provided at the distal ends of the branched tubes is branched and branched through a Y-shaped or T-shaped bifurcated joint. Attached (attachment part) is inserted into the right and left nostrils (nasal cavity) and used. And in the mounting | wearing, the stability of the mounting | wearing is ensured by, for example, putting a branch tube on both ears and turning it under a chin after that. A high concentration (82 to 95%) oxygen gas (hereinafter referred to as oxygen) set to an appropriate amount (predetermined flow rate) is sent to the nasal cannula thus attached through a tube from an oxygen source, From a pair of nostril insertion portions provided at the ends of the left and right branch tubes, the left and right nostrils (nasal passages) are supplied and inhalation is performed.

  By the way, even if such a nasal cannula (hereinafter also simply referred to as “cannula”) is mounted as described above, the nostril insertion portion may come off the nostril due to body movement in the process of use. May cause inadequate oxygen inhalation. For this reason, for example, measures such as fixing the tube to the patient's face with a tape may be taken. In patients who must continue to use the nasal cannula for a long period of time, the tube may come into contact with the ear or the skin of the face or continue to be pressed in the course of use, or it may be caused by rubbing at that time. May cause skin problems such as ulcers. Further, in the use of the nasal cannula as described above, particularly in the case of a woman, there is a problem of mental and physical burden due to a decrease in appearance and the like due to the wearing.

  Under such circumstances, various proposals have been made as solutions (see, for example, Patent Document 1). In this structure, a T-shaped hollow nasal wing nasal cannula body is formed to be supported by a nose tip and a nasal wing, and in the supported state, a tube portion (T And a prong (nostril insertion portion) that branches to the left and right to form a pair at the tip of the tube portion. Such a cannula is supposed to maintain a space where the prongs do not contact the skin, while the oxygen supply tube is branched into two near the user, each branch tube being It is formed to be connected to the left and right ends of a T-shaped nasal wing type nasal cannula body (T-shaped horizontal bar). With this, the cannula body can be supported by the nose tip and nose wing in this case, so even if the branch tube is hung around both ears, skin troubles are unlikely to occur in the vicinity of the earring leg, and the tube is located in the cheekbone from the lower part of the orbit. It is said that there is an advantage that it is difficult to cause positional displacement and dropout and to cause skin trouble because it reaches the auricle portion via the top.

  In addition to these proposals, oxygen is supplied to one nasal cavity, and oxygen is supplied to the left and right nasal cavities like a nasal cannula for detecting the concentration of carbon dioxide in the gas exhaled from the other nasal cavity. Various proposals have been made, including those that are not nasal cannulas (for example, see Patent Document 2).

  In addition, a nasal cannula has been proposed in which the tip portion of each of the pair of left and right nostril insertion portions is formed as a large diameter portion having a larger diameter than the portion other than the tip portion (see Patent Document 3). The one described in Patent Document 3 is provided with an overhanging portion that is coaxial with the nostril insertion portion (cylindrical) and has a conical or spherical shape at the tip end of the nostril insertion portion in the entire circumferential direction. . According to this nasal cannula, when the nostril insertion part is inserted into the right and left nostrils of the patient, the nasal septum can be sandwiched between the large diameter parts which are the overhanging parts with an appropriate elastic force. Therefore, it is possible to prevent the nostril insertion portion from falling off the nostril.

JP 2013-226356 A Special table 2009-545408 US Patent Application Publication No. 2002/0046755

  In the technique of the above-mentioned patent document 1, since the tube to be branched is attached to both ears due to its structure, there is a problem that it takes time and effort to attach and detach the tube. In addition, since the tube is used by hooking it to the ear, it is inevitable that the tube touches the ear or cheek and presses, and as a result, skin troubles such as ulcers at the contact site can be effectively avoided. It's hard to say. Furthermore, in the wearing state, the tube crosses both the left and right sides of the face, leading to a decrease in appearance at the time of use, and there is a problem that a psychological and mental burden is great for female patients. Furthermore, in addition to the main tube from the oxygen supply source, a considerably long branch tube is required, which causes problems such as a complicated piping structure of the tube and an increase in the number of parts such as branch joints.

  The nasal cannula of Patent Document 2 supplies oxygen to one of the left and right nasal cavities and collects carbon dioxide gas or the like in the other nasal cavity, and cannot supply oxygen to both the right and left nasal cavities. In other words, this cannot be used as a nasal cannula dedicated to supplying oxygen to two nasal cavities simultaneously.

Furthermore, in the nasal cannula described in Patent Document 3, as described above, the large-diameter portion (overhang portion) is provided at the tip of the nostril insertion portion, and therefore, when it is inserted into the nasal cavity and attached, it is prevented from falling off. However, the large-diameter portion is provided so as to protrude over the entire circumference of the tip of the nostril insertion portion, so the tip may block the nasal cavity, which is not preferable for patients who receive oxygen inhalation. It was pointed out. This is because, in patients receiving oxygen supply through the use of a nasal cannula, different from the oxygen mask supply, appropriate room air should be inhaled at the same time as oxygen is inhaled. That is, in the nasal cannula described in Patent Document 3, the large-diameter portion forming each tip of the nostril insertion portion tends to block the nasal cavity, so that moderate air inhalation is inhibited, resulting in a high oxygen concentration. This is to increase the possibility of developing CO ₂ narcosis due to excessive supply of gas to the patient's lungs.

  The present invention has been made in view of the above-described problems, and in a nasal cannula capable of supplying oxygen to the right and left nostrils, it is easy and quick to attach and detach without troublesomeness such as troublesome installation. In addition, it can effectively prevent the occurrence of skin troubles in the process of use after wearing it, and can also greatly suppress the appearance deterioration, and inhale moderate room air without blocking the nasal cavity. The object is to provide a nasal cannula that can be used.

The present invention according to claim 1 is a nasal cannula comprising an oxygen supply tube and a pair of nostril insertion portions having a flow path for supplying oxygen by being inserted into the right and left nostrils of a patient. ,
The pair of nostril insertion portions are provided at a base portion provided at the tip of the tube so as to communicate with the tube,
The base portion and the pair of nostril insertion portions are integrated, and at least one of them is formed to be elastically deformed moderately, and the pair of nostril insertion portions is a cylindrical portion having an appropriate length. And each cylindrical part has at least an inner side facing the nasal septum, excluding an outer side facing the opposite side of the nasal septum when inserted into the left and right nostrils of the outer peripheral surface of the distal end part or the intermediate part. A protruding portion that partially protrudes on the outer peripheral surface of the left and right nostril insertion portions in a free state, and the interval between the protruding portions is smaller than the interval between the proximal portions. The nostril insertion portion is formed so that at least one of the nose column or the nasal septum can be clamped with a suitable elastic force when inserted into the right and left nostrils of the patient. It is a nasal cannula according to claim.

  According to a second aspect of the present invention, the base portion has a hollow cylinder whose one end is closed and the other end is open, and the pair of nostril insertion portions are arranged such that their roots are arranged in the axial direction of the hollow cylinder. The nasal cannula according to claim 1, wherein the base is connected to the tip of the tube at the other end of the hollow cylinder.

  The invention according to claim 3 is characterized in that the projecting portion has a structure in which a wall portion of the cylindrical portion bulges out. Cannula.

The invention according to claim 4 is the invention according to any one of claims 1 to 3, characterized in that the overhanging portion is of a monolithic structure that forms a knob shape on the outer wall surface of the cylindrical portion. Nasal cannula.
The invention according to claim 5 is characterized in that, in the overhanging portion, the contour in the front-rear direction of the nostril insertion portion of the surface where the overhanging portions face each other has an arc shape. The nasal cannula according to claim 1.

  The nasal cannula according to any one of claims 1 to 5 is used to supply oxygen to a patient using a medical oxygen concentrator as an oxygen supply source. It is a nasal cannula of any one of Claims 1-5 characterized by the above-mentioned.

  According to the nasal cannula of the present invention, the patient (user) himself / herself grasps the tip of the tube and inserts the pair of nostril insertion portions into the right and left nostrils, or the pair of nostril insertion portions. The pair of nostril insertion portions is inserted into the right and left nostrils so that the distance between them is moderately widened, and the nose column is obtained by the appropriate elastic force (spring force) of the base portion or the pair of nostril insertion portions themselves. Alternatively, a nasal septum that is connected to the back of the nostril is sandwiched and can be worn. That is, according to the nasal cannula of the present invention, it is only necessary to push the pair of nostril insertion portions into the right and left nostrils, and there is no need to hang the tube on the ear as in the prior art, so it is not bothersome and quick. It can be installed. And since the attachment is maintained by pinching by appropriate elasticity (spring property) imparted to the pair of nostril insertion portions or the like, stable oxygen inhalation can be obtained for a long time. In addition, it is possible to efficiently prevent the tube from coming into contact with or rubbing the ears or cheeks, so that it is possible to effectively prevent the occurrence of skin troubles during the use process. And the structure is simple, such as not requiring a branch tube, and when removing it, it is only necessary to do the reverse of the mounting, so it can be easily removed, so the handling can be simplified. , Be a gospel for patients.

Further, in the nasal cannula of the present invention, although the overhanging portion is provided on the inner side of each nostril insertion portion, it is not provided on the outer side. Therefore, the nasal cavity can be inserted even when inserted into the nasal cavity. The risk of obstruction is low, and an appropriate gap can be easily secured outside the nostril insertion portion in the nasal cavity. For this reason, when oxygen is inhaled, ambient air in the room or the like is naturally inhaled through the air gap, so that the risk of CO ₂ narcosis due to inhalation of only high-concentration oxygen gas can be reduced. And since the nasal septum can be clamped by the overhanging portion, extremely stable wearing can be obtained.

  Further, according to the nasal cannula of the present invention, since the number of tubes positioned on the face can be reduced based on the configuration, it is possible to greatly suppress a decrease in appearance. Further, as in the invention described in claim 2, the base is connected to the tip of the tube at the other end of the hollow cylindrical body, so that the number of tubes that crawl the face can be reduced to one. In addition, when the patient is sleeping, the tube can be rotated as it is from the bottom of the nose to one side (lateral side) of the face, thereby reducing the appearance and appearance. That is, since the patient can respond to the doctor, nurse, etc. on the other face side without the tube, the mental burden can be reduced especially in the female patient. The hollow cylindrical body forming the base may be constituted by the distal end portion of the tube, or may be constituted by connecting separate members by bonding or the like.

  In the present invention, the pair of nostril insertion portions has an appropriate length, and when inserted into the right and left nostrils of the patient, the nose column or the nasal septum is sandwiched with an appropriate elastic force. What is necessary is just to be formed so that it may be mounted | worn with a nostril. Therefore, the distance between the nostril insertion portions including the two overhanging portions in the free state is set so that the pair of nostril insertion portions can be attached to the nostril by sandwiching the nasal column or the nasal septum with an appropriate elastic force. The distance may depend on the strength of elasticity (spring property) applied, but the part between the parts responsible for clamping may be zero in a free state. In addition, since elastic deformation should just be pinched with the elastic force, it may be based on elastic deformation of both this base part and this pair of nostril insertion part, and may be based on the elastic deformation of one side.

  With respect to the shape of the overhanging portions on the surfaces facing each other of the two nostril insertion portions of the nasal cannula of the present invention, or the interval between the nostril insertion portions such as the overhanging portions, at least one of the nasal column or the nasal septum is Since it should just be formed so that it can be inserted into the nostril by being sandwiched with an appropriate elastic force, it may be appropriately selected. However, in the present invention, the pair of nostril insertion portions is provided with an overhang portion on the inner side of the tip portion or the intermediate portion of the both, and the interval between the overhang portions is a base portion in a free state. Since it is formed so as to be smaller than this interval, it has been briefly described above, but specifically, there are also the following effects. Because the thickness of the nose column (thickness in the width direction of the face) located below (below the face) is usually larger than the thickness of the nasal septum, the human nose is usually formed in this way. Thus, the overhanging portion at the portion of the pair of nostril insertion portions sandwiching the nasal septum can be engaged with the inner surface of the nostril and the back surface of the nostril in the nasal column. Thus, even when an external force is applied that causes the pair of two nostril insertion portions to be pulled out in the mounted state, it can be prevented from falling off unexpectedly, so that extremely stable mounting can be obtained.

  As described above, according to the present invention, not only the displacement due to the pinching by elasticity but also the prevention of the drop-off is achieved by the engagement, and extremely high mounting stability can be obtained. The overhanging portion may have a structure in which a portion of the wall of the cylindrical portion bulges or may have an integral structure that forms a knob shape on the outer wall surface of the cylindrical portion. However, smoothness of attachment / detachment (insertion / removal) is achieved by assuming that the contour in the front-rear direction of the nostril insertion part of the surface of the overhanging part facing each other is arcuate. Note that the elasticity of the pair of nostril insertion portions and the like, the interval between the nostril insertion portions including the overhanging portion in the free state (interval between the opposing surfaces where the pair of nostril insertion portions face each other), and the shape are the user (adult, infant) ) Nose size (nostril size, nasal column width, nasal septum thickness, etc.).

1 is a first embodiment that embodies the nasal cannula of the present invention, and shows a main part including a pair of nostril insertion portions located at the distal end of a tube for supplying oxygen; The front view explaining a principal part, B is the figure which looked at the nostril insertion part from the front end side (figure which looked at A of FIG. 1 from the top), C is the figure which looked at A of FIG. 1 from the bottom. The conceptual diagram for description which looked at the state which has mounted | worn the cannula of FIG. 1 to the nostril from the side of the nose. It is a figure explaining the state which has mounted | worn the cannula of FIG. 1 to a nostril, Comprising: A is a front view explaining the principal part, B is the figure which looked at the nostril insertion part from the front end side (A of FIG. 3) From the top). The figure explaining the position etc. of the tube when mounting | wearing the nostril with the cannula of FIG. The second embodiment (Example) embodying the nasal cannula of the present invention, showing the main part including a pair of nostril insertion portions located at the tip of the oxygen supply tube, A is a front view for explaining the main part, B is a view of the nostril insertion portion as seen from the tip side (a view of A in FIG. 5 as viewed from above), and C is a right side view of A in FIG. FIG. 4 is a partially broken view illustrating a main part including a pair of nostril insertion portions located at the distal end of a tube for supplying oxygen, which is a third embodiment (example) embodying the nasal cannula of the present invention. The front view and partial sectional view. The front view explaining the principal part containing a pair of nostril insertion parts which are 4th Embodiment (Example) which actualized the nasal cannula of this invention, and is located in the front-end | tip of the tube for oxygen supply. The front view explaining the principal part containing a pair of nostril insertion parts which are 5th Embodiment (Example) which actualized the nasal cannula of this invention, and is located in the front-end | tip of the tube for oxygen supply. The front view explaining the principal part containing a pair of nostril insertion parts located in the front-end | tip of the tube for oxygen supply which is 6th Embodiment (Example) which actualized the nasal cannula of this invention.

  Hereinafter, a first embodiment (example) embodying the nasal cannula of the present invention will be described in detail with reference to FIGS. The cannula 100 of this example is flexible and has moderate elasticity, and has a predetermined length of a soft polyvinyl chloride tube (transparent tube having a circular cross section) 110 and a distal end 112 of the same diameter and integral with it. And a base 121 made of a hollow cylinder (cylindrical body) 120 provided in a continuous manner and oxygen supplied through the tube 110 on one side of the outer peripheral surface of the hollow cylinder 120 to the right and left nostrils. The pair of nostril insertion portions 130 and 130 has a hollow cylindrical shape, and the base (hollow cylindrical body 120) 121 and the pair of nostril insertion portions 130 and 130 have a substantially U-shape ( (See FIG. 1-A). Each nostril insertion portion 130 has an oxygen discharge port at the tip (center) 131 and is formed to be inserted into the right and left nostrils of the patient. Both the base (hollow cylindrical body 120) 121 and the nostril insertion portion 130 may be formed from a resin that is appropriately elastically deformed, but in this example, it is formed from the same material (elastic material) as the tube 110, 1A, when the nostril insertion portion 130 is based on the root of the nostril insertion portion 130 as indicated by the circular arc arrow, the tip 131 side is relatively left and right as indicated by the two-dot chain line in FIG. The hollow cylindrical body 120 is also deformed (deformed as indicated by a two-dot chain line in FIG. 1A) along with the deformation. In addition, the broken-line arrow in a figure has shown the flow of oxygen.

  The hollow cylinder 120 forming the base 121 provided with the nostril insertion portion 130 is closed at one end 123 and is connected to the other end 124 at the tip 113 so that the tube 110 is integrated with the nostril insertion portion 130. 130 and the tube 110 are configured to communicate with each other via an internal flow path (hollow portion). The two nostril insertion portions 130 are arranged at intervals inserted into the right and left nostrils of the patient on one side of the outer peripheral surface of the hollow cylinder 120, and the nostrils with respect to the axial direction (longitudinal direction) of the hollow cylinder 120. A hollow portion of the insertion portion 130 (a circular flow path 132 having a diameter of about 1 mm in the cross section) is formed at a right angle so as to protrude in an appropriate length. The nostril insertion portion 130 has an appropriate length that can fit within the patient's nostril (inside the nasal cavity) without difficulty and substantially protrudes from the outer peripheral surface of the hollow cylinder 120. Is provided. In this example, the nostril insertion portion 130 is a cylindrical tube having the same inner diameter and outer diameter (for example, an inner diameter of 1 mm and an outer diameter of 3 mm) as the hollow cylinder 120 and the tube 110 forming the base 121, respectively. When the portion (circular tube) is a base body (base) 133 and the nostril insertion portion 130 is made parallel to the base body (hereinafter also referred to as a cylindrical portion) 133 that is the cylindrical portion (see FIG. 1-A). ), Both of which are the opposite surface side, that is, when inserted into the right and left nostrils, the inner surface side facing the nasal septum is partially overhanged in the present example (hereinafter referred to as the arc-shaped portion). Say 135). In this example, as the overhanging portion 135, an arc-shaped portion (a bulging portion whose contour is arc-shaped (semi-arc-shaped)) 135 having a certain thickness (excluding the portion near the root (the portion near the hollow cylindrical body 120)) is fixed ( The outer diameter of the base body 133 is the same).

  In the free state, the pair of nostril insertion portions 130 and 130 has a minimum gap (gap) K1 between the two arcuate portions 135 and 135 facing each other smaller than the thickness of the nasal septum in the patient's nostril. When inserted into the nostril, the two arc-shaped portions 135, 135 enter the nostril, sandwich the nasal septum with appropriate elasticity, and the thickness of the nasal septum in the relative recess 136 on the opposite side of the base. The left and right parts of the nasal column having a larger width are set to be fitted. In this example, the pair of nostril insertion portions 130 and 130 are symmetric, but this need not be symmetric. A fillet 137 is built up and reinforced at the corners of the pair of nostril insertion portions 130 on the outer side (opposite side of the facing surface) and the hollow cylinder 120. In addition, each nostril insertion portion 130 including its tip 131 is rounded with an appropriate rounded chamfering so as not to damage the inner surface and mucous membrane during insertion into the nostril.

  Next, the mounting of the cannula 100 of this example will be described with reference to FIGS. In the mounting, the pair of nostril insertion portions 130 and 130 are pushed into the patient's nostril Ha. Then, the tip-facing surface 135a of each arcuate part 135 in the pair of nostril insertion parts 130 is guided by the nose column Hb, and the distance between the opposing surfaces of both arcuate parts 135 is the elasticity of the nostril insertion part 130 and the base 121. Is inserted into the nostril Ha while being deformed so as to spread (bend outwardly). Then, after the insertion, the interval between the pair of nostril insertion portions 130, 130 tends to return to the original interval due to elasticity, so the pair of arc-shaped portions 135, 135 sandwich the nasal septum Hk, or A portion closer to the root (recess 136) sandwiches the nasal column Hb (see FIG. 3). Thus, the cannula 100 of this example is attached to the patient's nostril Ha in that position. Then, in the mounted state, the hollow cylinder 120 that forms the base 121 lies under the nose, and thus, for example, the tube 110 can be drawn and hung as it is toward one of the sides of the face. Yes (see FIG. 4).

  That is, according to the nasal cannula 100 of this example, since the patient himself can hold the pair of nostril insertion portions 130 and 130 and push them into the right and left nostrils Ha, it can be easily and quickly mounted. it can. Since the attachment is performed by moderate elasticity, an oxygen supply source such as an oxygen concentrator (oxygen concentrator) or the like, if necessary, an appropriate relay tube (a main tube connected to the tube 110). ), The patient can obtain a predetermined concentration of oxygen over a long period of time, including sleeping, for a long time. In addition, in this example, the pair of arcuate portions 135 can sandwich the nasal septum Hk, and the nasal column Hb can be sandwiched between the arcuate portion 135 and the base 121 (concave portion 136). Thereby, in the wearing state, the action of hooks (hooks) for engaging the arc-shaped portion 135 with both side portions (backward surfaces) of the nose column Hb in the nostril Ha can be achieved. Therefore, since not only positional deviation but also highly stable wearing can be obtained, stable oxygen inhalation can be obtained for a long time even in a patient with many body movements. Although the tube of the present invention including this example may have a length that can be directly connected to the oxygen supply source, one end of the main tube is connected to the connection port of the oxygen supply source, The other end may be connected via a joint or the like, and the length may be set as necessary.

  Further, as is clear from the above, it is possible to prevent the tube 110 from coming into contact with the ears and cheeks as much as possible in the process of use, and therefore it is possible to effectively prevent the occurrence of skin troubles. And when removing, it is only necessary to do the reverse of the mounting, so it can be removed easily. Furthermore, in the cannula 100 of this example, since the structure and the simplicity of the structure can be obtained, the handling can be simplified. In addition, only one tube 110 for scolding the face can be used, and as described above, it can be directly rotated to one side (lateral side) of the face, so that the appearance and appearance can be greatly reduced. For this reason, especially in a female patient, the specific effect that the mental burden is reduced is brought about.

Furthermore, according to the nasal cannula 100 of this example, although the overhang portion (arc-shaped portion) 135 is provided inside each nostril insertion portion 130, 130, it is provided outside thereof. Therefore, when inserted into the nasal cavity Ha, the risk of occluding the nasal cavity Ha is low. As a result, even in the nasal cavity Ha, an appropriate gap can be secured outside the nostril insertion portions 130 and 130, and therefore, when oxygen is inhaled, ambient air such as a room can be naturally inhaled from the gap. Therefore, the risk of the onset of CO ₂ narcosis caused by inhalation of only the high concentration oxygen gas can be reduced.

  In this example, the hollow cylindrical body 120 that forms the base 121 of the nasal cannula 100 is embodied as an integrated body that is continuous at the distal end portion of the tube 110. However, a separate body may be connected by bonding or the like. . Further, the pair of nostril insertion portions 130 and 130 have an appropriate length, and sandwich the nose column Hb or the nasal septum Hk with an appropriate elastic force when inserted into the right and left nostrils Ha of the patient. Therefore, the nasal column Hb or the nasal septum Hk may be sandwiched with an appropriate elastic force depending on the size of the patient's nostril and the like, so that the nostril can be attached to the nostril. As described above, it is only necessary to set the interval between the nostril insertion portion 130 including the arc-shaped portion 135 that is the two overhang portions in the free state. In addition, the elastic deformability (spring property) should just be pinched | interposed to the extent that a pair of nostril insertion parts 130 and 130 do not remove | deviate unexpectedly with the elastic force (spring force). Further, this clamping may be performed not only by the deformation of the base 121 but also by the deformation in the direction in which the distance between the pair of nostril insertion portions 130 and 130 increases.

  In the above example, a fillet 137 is formed and reinforced at the corner between the outer side of the pair of nostril insertion portions 130 (on the side opposite to the facing surface) and the hollow cylinder 120. Although an example of the structure is illustrated, the present invention is embodied as a simplified structure in which such fillet 137 is not provided like the nasal cannula 200 of the second embodiment (modified example) shown in FIG. You can also. Suitable for materialization with a material having sufficient elasticity and high durability. In this modified example, in the nasal cannula of the above example, the fillet 137 is removed and the outside of the nostril insertion portion 130 in a front view is straightened from the root to the tip 131, and the nostril insertion portion 130 is The only difference is that the overhanging portion (arc-shaped portion) 135 is reduced in size and thinned as a whole, and there is no structurally essential difference. For this reason, the same or corresponding parts are only given the same reference numerals (hereinafter, in other examples, the same or corresponding parts are given the same reference numerals, and the description is omitted as appropriate). .

  In the second embodiment, since the outside of the nostril insertion portion 130 is straight from the root to the tip 131, a clearance for air to pass outside of the nostril insertion portion 130 in the nasal cavity is ensured during insertion (wearing) into the nasal cavity. It becomes easier. Note that the outer peripheral surface of the base 121 made of the hollow cylinder (cylindrical body) 120 is between the bottom of the nose and the upper lip when worn, as shown by a two-dot chain line or a thin line in FIG. In order to reduce the contact pressure with the skin, it may be flat or oval instead of a circle.

  In this example, the overhang portion (arc-shaped portion) 135 is formed on the outer peripheral surface of the base body (tubular portion) 133 as being lumped like the first embodiment. As a structure in which the wall portion of the tubular portion 133 is bulged like the nostril insertion portion 130 in the nasal cannula 300 of the third embodiment (modified example) shown in FIG. It is good also as a structure of projecting and forming by the thing of comparable thickness (refer to the nostril insertion part 130 shown by the cutaway figure on the right side of FIG. 6, and S2-S2 cross section in the figure). That is, the inside of the overhanging portion 135 may be hollow so that the tubular portion 133 is partially expanded in the overhanging portion 135. In this way, the weight can be reduced accordingly.

  FIG. 7 shows the nasal cannula 400 of the fourth embodiment (modified example). In the nasal cannula of FIG. 5 or FIG. 6, the overhanging portion (arc-shaped portion) 135 is replaced with each cylindrical portion 133. The thing provided inside the intermediate | middle near part of is illustrated. In each of the above examples, the case where the overhang portion (arc-shaped portion) 135 is provided near the tip of each tubular portion 133 is illustrated. However, the overhang portion 135 is formed on each tubular portion 133 as in this example. It may be provided at an intermediate position. What is necessary is just to design the front-rear position of the overhang | projection part 135 suitably according to the magnitude | size, shape, etc. of a patient's nasal cavity so that the mounting | wearing property may be improved.

  FIG. 8 shows a nasal cannula 500 of the fifth embodiment (modified example). In the nasal cannula of FIG. 5 or 6, the left and right cylindrical portions 133 forming the pair of nostril insertion portions 130 and 130 are arranged substantially in parallel. The cylindrical body 120 is inclined inward as viewed from the front so that the distance between the cylindrical portions 133 is reduced. In FIG. 8, the entire cylindrical portion 133 is inclined, but it may be inclined at the tip 131 from the intermediate portion of the cylindrical portion 133.

  That is, the pair of nostril insertion portions 130 and 130 in the above example extend in parallel from the hollow cylinder 120, whereas in the cannula 200 of this example, the pair of nostril insertion portions 130 and 130 are A cylinder (cylindrical portion) extending in a circular shape with a constant cross-section is used as the base body 133, and spaced apart on one side near the tip 123 of the hollow cylinder 120 forming the base 120, projecting from each other and close to the tip 131. It is assumed that it is formed in a shape with an appropriate inclination angle from the base (part close to the base 121) toward the tip 131 of itself.

  In such a cannula 200 of this example, when the pair of nostril insertion portions 130, 130 are pushed into the right and left nasal cavities, the overhanging portion (arc-shaped portion) 135 of the tip 131 of the pair of nostril insertion portions 130, 130 is formed. The nasal septum is elastically clamped, and the base side (base 121 side) is configured to be mounted in a state where the nasal column is elastically clamped or loosely clamped. That is, at the time of the mounting, the pair of nostril insertion portions 130 and 130 are elastically deformed so that the distance therebetween is widened at the tip 131, and the hollow cylinder 120 is also configured to be elastically deformed by a small amount corresponding to the deformation. Yes. That is, for example, as shown by a two-dot chain line in the figure, the base 121 is bent outwardly so as to be perpendicular to sandwich the nasal septum, and the nasal cavity is inserted outside the nostril insertion portion 130. Is set to ensure a clearance through which air passes.

  As a result, in the nasal cannula 200 of this example, substantially the same effect as the above example can be obtained. In addition, as long as appropriate wearing by elasticity is obtained, the pinching by elasticity may be only one of the nasal column or the nasal septum. What is necessary is just to set the inclination of K1 and also the nostril insertion part 130. FIG.

  Next, based on FIG. 9, a sixth embodiment (modified example) embodying the cannula of the present invention will be described. This cannula 600 should be called a modified example of the first embodiment. Therefore, only the differences (2 points) will be described. That is, the difference is that, in the first embodiment, of the pair of nostril insertion portions 130, 130, the outer portion of both of them at the root (the portion closer to the hollow cylinder 120) and the hollow cylinder 120 In the present example, the fillet 137 is formed in a fillet shape at the corner, but in this example, there is no such fillet, and the root is formed of the hollow cylinder 120 that forms the base 121, and the inner and outer diameters. In both cases, the base body 133 is formed of a circular cylinder having the same diameter and a circular cross section, which is relatively narrower than that of the first embodiment. Thereby, the bending deformation with respect to the hollow cylinder 120 of a pair of nostril insertion parts 130 and 130 is facilitated.

  Further, of the pair of nostril insertion portions 130, 130, the outer diameter of the base body 133 where the arc-shaped portion 135 is formed is thicker than the outer diameter of the base body 133 near the root. It covers (refer to S2-S2 cross section in FIG. 9). Thereby, as for the nostril insertion parts 130 and 130, the site | part containing the circular-arc-shaped part 135 is formed thicker than the site | part near a root.

  In this example, when the pair of nostril insertion portions 130, 130 are inserted into the right and left nostrils and attached, the arcuate portion 135 that is thicker than the base portion and distal to the base portion is formed. Since the part to include is located in the back of the nostril, stability in the wearing is achieved.

  The cannula of the present invention is not limited to the above-described one, and can be embodied with appropriate modifications within a range not departing from the gist thereof. That is, the shape and structure of the pair of nostril insertion portions is such that when it is inserted into the left and right nostrils, the region between the nostrils (at least one of the nasal column and the nasal septum) is painful, etc. It is only necessary to be able to pinch without a sense of incongruity, and therefore, within the range where it can be obtained, it can be embodied as an appropriate shape including the overhang portion. That is, the pair of nostril insertion portions constituting the nasal cannula of the present invention each include a cylindrical portion having an appropriate length, and each cylindrical portion is an outer peripheral surface of a portion near the tip or an intermediate portion. Of these, when inserted into the left and right nostrils, except for the outer side facing away from the nasal septum, at least on the inner peripheral surface facing the nasal septum, it is provided with a protruding portion that partially extends, When the nostril insertion portion is formed so that the interval between the overhang portions is smaller than the interval between the proximal portions, when the pair of nostril insertion portions are inserted into the right and left nostrils of the patient, What is necessary is just to form so that at least one of the nasal septum may be pinched | interposed with moderate elastic force, and it may be mounted | worn with this nostril. As for the shape of the overhang portion, in the above example, the contour in the front-rear direction of the nostril insertion portion of the surface where the overhang portions face each other has an arc shape, but is not limited thereto. Further, in the present invention, the overhanging portion is at least on the inner peripheral surface facing the nasal septum, excluding the outer side facing the nasal septum, so that the outer peripheral surface between the inner side and the outer side has a bulge. Also good.

  Further, in the cannula of each of the above examples, the base (hollow cylindrical body) is provided so as to extend at the distal end of the tube. Therefore, when the pair of nostril insertion portions of the cannula are inserted into the right and left nostrils and attached, In this case, the tube can be rotated directly under the nose in the lateral direction of the face, and therefore, it has an effect of solving the appearance problem. However, in the cannula of the present invention, the pair of nostrils of the cannula is uniquely defined. It is only necessary that at least one of the nasal column and the nasal septum can be clamped with an appropriate elastic force when the insertion portion is inserted into the right and left nostrils and attached. That is, this not only provides ease of wearing, but also greatly reduces the contact with the skin caused by, for example, putting the tube on the ear during wearing, so that the effect of eliminating skin troubles can be obtained. . For this reason, when the patient does not need to improve such appearance, the base is a hollow cylindrical body having both ends closed, and a pair of nostrils on one side thereof at the right and left ends or at an appropriate interval. Even if the insertion portion is provided, the tube may be connected to an intermediate position between the left and right ends of the hollow cylindrical body or between a pair of nostril insertion portions (intermediate position). In other words, the hollow cylindrical body may be a “T” horizontal bar and the tube may be a “T” vertical bar.

  In the cannula of the present invention, the base portion located at the tip of the tube is a relay portion that communicates with the pair of nostril insertion portions and the tube, and has a hollow portion that can communicate with the tube. The shape, structure, and the like are not particularly limited, but are preferably hollow cylinders, and more preferably, the cylinder is a cylinder because there is little discomfort during mounting. The hollow cylinder may be hard and not easily deformed, and only a pair of nostril insertion portions may be elastically deformed, and may be attached by being clamped by deformation by insertion into the nostril. As described above, conversely, the pair of nostril insertion portions are made of a material that does not easily deform, and only the base formed by the hollow cylinder or the like can be elastically deformed. You may enable it to pinch a nasal septum. In the cannula of the present invention, the base portion made of a hollow cylinder or the like and the tube may be formed by integral molding, or may be molded by bonding other parts together. The hollow cylindrical body that forms the base and the tube need only be in communication with each other, and at the tip of the tube, the hollow cylindrical body is parallel to the tube and partially or entirely overlapped. it can.

100, 200, 300, 400, 500, 600 Nasal cannula 110 Tube for oxygen supply 113 Tube tip 120 Base 121 Hollow cylinder 123 One end of hollow cylinder 124 The other end of hollow cylinder 130 A pair of nostril insertion parts 133 Tubular part 135 Overhang part (arc-shaped part)
Ha nostril Hb nasal column Hk nasal septum

Claims (6)

A nasal cannula comprising an oxygen supply tube and a pair of nostril insertion portions having a flow path for supplying oxygen by being inserted into the right and left nostrils of a patient,
The pair of nostril insertion portions are provided at a base portion provided at the tip of the tube so as to communicate with the tube,
The base portion and the pair of nostril insertion portions are integrated, and at least one of them is formed to be elastically deformed moderately, and the pair of nostril insertion portions is a cylindrical portion having an appropriate length. And each cylindrical part has at least an inner side facing the nasal septum, excluding an outer side facing the opposite side of the nasal septum when inserted into the left and right nostrils of the outer peripheral surface of the distal end part or the intermediate part. A protruding portion that partially protrudes on the outer peripheral surface of the left and right nostril insertion portions in a free state, and the interval between the protruding portions is smaller than the interval between the proximal portions. The nostril insertion portion is formed so that at least one of the nose column or the nasal septum can be clamped with a suitable elastic force when inserted into the right and left nostrils of the patient. Nasal cannula, characterized in that. Original claim 2
The base portion has a hollow cylinder whose one end is closed and the other end is open, and the pair of nostril insertion portions are provided in such a manner that their roots are arranged in the axial direction of the hollow cylinder, The nasal cannula according to claim 1, wherein the other end of the hollow cylinder is connected to the tip of the tube.   3. The nasal cannula according to claim 1, wherein the projecting portion has a structure in which a wall portion of the tubular portion bulges out.   The nasal cannula according to any one of claims 1 to 3, wherein the overhanging portion has an integral structure that forms a knob shape on an outer wall surface of the cylindrical portion.   The nasal cannula according to any one of claims 1 to 4, wherein a contour of the nostril insertion portion in a front-rear direction of a surface of the overhang portions facing each other is an arc shape. .   The nasal cannula according to any one of claims 1 to 5, wherein the nasal cannula is used to supply oxygen to a patient using a medical oxygen concentrator as an oxygen supply source. The nasal cannula according to any one of -5.

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