CN210331303U - Multifunctional snuffing device adaptive to nose shape - Google Patents

Abstract

People can inhale various gases and particles in life, such as pollen, nasal spray, smell and the like; nasal spray spouts can harm the nasal mucosa and can lead to the septum of the nose to perforate for a long time on the nasal mucosa, inhales the powder and can lead to lung merit harm etc. and the multi-functional snuff of adaptation nose shape can show the harm that reduces the inhalant and cause to the health, also provides a new convenient mode, the easy beneficial inhalant that acquires multiple type. The multifunctional snuffing piece adaptive to the nose shape comprises: the nasal inhalation framework, the nasal obstruction, the nasal inhalation shell and the nasal inhalation cabin are matched with the nasal shape.

Description

Multifunctional snuffing device adaptive to nose shape

Technical Field

The invention relates to the field of nasal aerosol inhalation, in particular to a multifunctional snuffing device adaptive to a nose shape.

Background

People can inhale various gases and particles in life, such as pollen, nasal spray, smell and the like; the nasal spray is sprayed on the nasal mucosa to damage the nasal mucosa, which can cause perforation of nasal septum for a long time, and inhalation particles can cause lung work damage, and the like.

The multifunctional snuffing device with the adaptive nose shape can obviously reduce the damage of the inhalant to the body, also provides a new convenient mode, and easily obtains various beneficial inhalants.

Disclosure of Invention

The invention provides a multifunctional snuffing device which is adaptive to a nose shape and solves the problem of defects in the related art.

According to an embodiment of the present invention, there is provided a multifunctional snuffing apparatus adapted to a nose shape, characterized in that:

the multifunctional snuffing piece adaptive to the nose shape comprises: the nasal inhalation framework, the nasal obstruction, the nasal inhalation shell and the nasal inhalation cabin are matched with the nasal shape.

The snuffing framework is configured to have radian which can change along with the axis angle of the nostrils and is used for assembling a nasal plug, a snuffing shell and a carrier of a snuffing cabin, a container is established after combination, and air breathed by the nasal cavity enters and exits the container and is mixed with air volatilized from the snuffing cabin.

A nasal plug configured for insertion into a nostril of a user, establishing a breathing passage, and securing the snuff outside the nostril of the user.

The snuffing shell is configured to be combined with the snuffing framework and the snuffing cabin into a container for gas mixing.

The snuffing cabin is configured to be fixed in the middle of the snuffing framework, various volatile carriers such as liquid and solid are filled in the snuffing cabin, gas is volatilized from one end or two ends of the snuffing cabin, beneficial effects are generated after the snuffing cabin is inhaled into a nasal cavity by a user, and the user can select the snuffing cabin with different functions.

The nose shape fitting device comprises a fitting nose shape and is configured to enable a user to select nose suckers or nose suckers components which are suitable for the nose shape of the user in different sizes according to the nose shape.

The snuffing framework further comprises: the nasal cavity comprises a framework arc-shaped platform, a nasal obstruction fixing groove, a shell fixing ring, a shell clamping groove and a nasal inhalation cabin clamping groove.

The framework arc-shaped platform is configured to be used for enabling an arc surface to be attached to a nose shape and be easy to bend, and the radian of the arc surface changes along with the axis angle of the two nose plug rings.

The nasal plug fixing groove is configured to be matched with the nasal plug fixing ring to fix the nasal plug in the middle of the concave surface of the nasal inhalation framework.

The shell fixing ring is configured to be matched with the inner ring surface of the snuffing shell to fix the snuffing shell on two sides of the convex surface of the snuffing framework.

And the shell clamping grooves are configured to be matched with the shell clamping heads to fix the snuffing shell on two sides of the convex surface of the snuffing framework.

And the nasal inhalation cabin clamping groove is configured to be matched with the nasal inhalation cabin clamping head to fix the nasal inhalation cabin in the middle of the convex surface of the nasal inhalation framework.

The nasal plug further comprises: the nasal plug ring, the nasal plug fixing ring and the nasal plug connecting strip.

And the nasal plug ring is configured to be plugged into the nostril of the user to fix the nasal inhalation outside the nostril of the user and establish a breathing passage.

The nose plug fixing ring is configured to be matched with the nose plug clamping groove to fix the nose plug on the concave surface of the nose sucking framework.

The nasal obstruction connecting strip is configured to connect the 2 nasal obstruction rings into a whole to prevent a user from sucking the nasal obstruction rings into the nasal cavity.

The nasal suction shell further comprises: snuffing shell, shell dop, snuffing hole.

The snuffing shell is configured to be used for forming an air exchange container with the snuffing framework and the snuffing cabin, the inner ring surface of the snuffing shell is matched with the shell fixing ring to fix the snuffing shell on the snuffing framework, and the outer surface can be beautified by a pattern.

And the shell clamping heads are configured to be matched with the shell clamping grooves to fix the snuffing shell on two sides of the convex surface of the snuffing framework.

The snuffing hole is configured as a vent hole for communicating the inside of the snuffing with the outside of the snuffing, and a groove hole can be formed in the snuffing shell.

The snuffing cabin further comprises: the nasal inhalation cabin comprises a nasal inhalation cabin sticker, a nasal inhalation cabin chuck, a liquid cabin, a powder cabin, a heating cabin and an atomization cabin.

The nasal inhalation cabin patch is configured into sealing paper for sealing holes at two ends of the nasal inhalation cabin and preventing the carrier in the nasal inhalation cabin from volatilizing.

And the nasal inhalation cabin clamping head is configured to be matched with the nasal inhalation cabin clamping groove to fix the nasal inhalation cabin in the middle of the convex surface of the nasal inhalation framework.

And the liquid agent cabin is configured as a carrier for containing volatile liquid, the liquid carrier is adsorbed in the liquid agent cabin cotton in the middle, and volatile gas reaches the two nasal suction shell containers through the left end and the right end to be mixed with breathing air.

And the powder cabin is configured as a carrier for containing powder and particles with volatile smell, the solid carrier is isolated between the two end nasal inhalation cabin nets, and volatile gas reaches the two nasal inhalation shell containers through the left and right end nasal inhalation cabin nets to be mixed with breathing air.

And the heating cabin is configured to be used for containing liquid, the liquid carrier is adsorbed in the heating cabin cotton at two ends and is easy to volatilize after being heated by the heating device, and volatilized gas reaches the two nasal inhalation shell containers through the two ends and is mixed with breathing air.

And the atomizing chamber is configured as a carrier for containing liquid, the liquid carrier is contained in the liquid container, and after the liquid carrier is atomized by the atomizer at one end or two ends, atomizing gas reaches the inside of the nasal inhalation shell container through one end or two ends and is mixed with breathing air.

The liquor compartment further comprises: liquid cabin shell, liquid cabin cotton and cabin inner clamping head.

A liquid agent cabin shell which is configured to be filled with volatile liquid, a nasal suction cabin cotton and a carrier for gas volatilization through two ends.

The liquid agent cabin cotton is configured to adsorb volatile liquid, and the liquid easy to volatilize adsorbs the cotton.

And the cabin inner clamp is configured to fix the liquid agent cabin cotton at the middle position in the liquid agent cabin.

The powder compartment further comprises: a powder cabin shell, a powder cabin inner shell, a powder cabin net and an inner shell slot hole.

The powder cabin shell is configured to be used for being filled into the powder cabin inner shell, the powder cabin net and the carrier performing gas volatilization through two ends.

A powder capsule inner shell configured for closed two-end interior loading with a solid load through which a volatized gas may pass.

And the powder cabin net is configured as an isolation net for closing two ends of the inner shell of the powder cabin, so that solids are isolated, and only volatile gas can pass through.

And the slotted hole of the inner shell is configured to be used for fixing the inner shell in the powder cabin shell and also used for an injection hole of solid powder in the inner shell.

The heating compartment further comprises: the heating cabin comprises a heating cabin shell, heating cabin cotton, a heater, a battery module, a control module and a heating cabin switch.

A heating chamber housing configured for enclosing a liquid, heating chamber cotton, a heater, a battery module, a control module, a heating chamber switch, a carrier for gas volatilization through both ends.

Heating chamber cotton is configured to adsorb volatile liquid, and liquid easy to volatilize adsorbs cotton.

And the heater is configured to heat the liquid in the cabin cotton, and the liquid is more easily volatilized from the two ends after the temperature of the liquid is increased.

A battery module configured to provide a stable heating current to the heater.

A control module configured to sense a temperature change, control an output of the current, and control a heater temperature.

A heating compartment switch; a switch configured to control the circuit, which operates when the heating compartment is mounted to the nasal inhalation frame, may also be used to charge the battery.

The atomization chamber further comprises: atomizing cabin shell, atomizing liquid cabin, atomizer, power module, atomizing cabin switch.

An atomization cabin shell which is configured to be filled with liquid, an atomization liquid cabin, an atomizer, a power module, an atomization cabin switch and a carrier for gas atomization release through one end or two ends.

The atomization liquid tank is configured as an atomization tank inner container used for containing liquid, and an atomizer at one end or two ends is connected.

And the atomizer is configured to atomize the liquid in the atomizing chamber and release the liquid from one end or two ends of the atomizing chamber.

A power module configured to provide a stable operating current for the nebulizer.

An aerosol compartment switch configured to control the switching of the circuit when the aerosol compartment is mounted to the nasal inhalation frame, optionally also for charging the battery.

The fitting nose shape includes: the nostril distance of the user is different, the nostril size is different, and the axle center angle of the nostril is different and changes along with breathing.

The nostril intervals are different, and a group of three nasal suction frameworks with nasal obstruction fixed groove arc intervals are adopted, covering 16-20mm, and the interval difference is 2 mm; arc spacing of 16mm, 18mm, 20mm may be used and the user may make an adaptation choice.

The nostrils have different sizes, and a group of five nasal plugs with the diameters of the nasal plug rings is adopted, the nasal plugs cover 9-13mm, and the distance difference is 1 mm; the diameters of the nasal obstruction rings can be 9mm, 10mm, 11mm, 12mm and 13mm, and the users can select the nasal obstruction rings in a matching mode.

The nasal breathing framework is easy to bend and the radian can be changed along with the axis angle of the nasal plug.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

FIG. 1 is a perspective view of a snuff according to an exemplary embodiment of the present invention.

FIG. 2 is a front view of a nasal inhalation illustrating the present invention according to an exemplary embodiment.

FIG. 3 is a front view of a nasal inhalation frame according to an exemplary embodiment of the present invention.

FIG. 4 is a bottom view of a nasal inhalation frame according to an exemplary embodiment of the present invention.

FIG. 5 is a side view of a nasal inhalation frame shown in accordance with an exemplary embodiment of the present invention.

FIG. 6 is a perspective view of a nasal inhalation frame according to an exemplary embodiment of the present invention.

Fig. 7 is a perspective view of a nasal prong shown in accordance with an exemplary embodiment of the present invention.

FIG. 8 is a front view of an inhaler shell according to an exemplary embodiment of the present invention.

FIG. 9 is a bottom view of an inhaler shell according to an exemplary embodiment of the present invention.

FIG. 10 is a side view of an inhaler shell according to an exemplary embodiment of the present invention.

FIG. 11 is a perspective view of an inhaler housing according to an exemplary embodiment of the present invention.

FIG. 12 is a perspective view of an inhalation module of the present invention shown in accordance with an exemplary embodiment.

FIG. 13 is a perspective view of a liquid formulation tank shown in accordance with an exemplary embodiment of the present invention.

FIG. 14 is an assembled perspective view of a liquid formulation tank shown in accordance with an exemplary embodiment of the present invention.

Fig. 15 is a perspective view of a powder capsule according to an exemplary embodiment of the present invention.

Fig. 16 is an assembled perspective view of a powder capsule according to an exemplary embodiment of the present invention.

FIG. 17 is a perspective view of a heating chamber of the present invention according to an exemplary embodiment.

FIG. 18 is an assembled perspective view of a heating pod according to an exemplary embodiment of the present invention.

Fig. 19 is a perspective view of an atomization chamber in accordance with an exemplary embodiment of the present invention.

Fig. 20 is an assembled perspective view of an atomization chamber shown in accordance with an exemplary embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As used in this specification and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, a snuff view of the present invention according to an exemplary embodiment is shown, the structure being as follows:

the nasal suction framework 11 is integrally arc-shaped, semicircular rings are arranged on two sides of a convex surface and used for mounting a nasal suction shell, the middle of the convex surface is used for mounting a nasal suction cabin, and cylindrical rings are arranged on two sides of a concave surface and used for mounting a nasal plug; is made of sanitary material, plastic, metal or fiber.

The whole nasal plug 21 is formed by connecting the bottoms of 2 hollow elliptical rings into a whole by a thin strip, and the bottom of each elliptical ring is internally connected with a ring for fixing the nasal plug; is made of sanitary soft elastic material, and can be made of rubber, silica gel and soft rubber.

The nose suction shell 31 is integrally in a hollow semicircular ring shape and connected with a semicircular crown shape, the crown top is provided with a hole, the inner ring surface can fix the nose suction shell, and a groove hole can be formed on the optional surface; is made of sanitary material and can be made of plastics, metal and fiber.

The snuffing cabin 41 is integrally hollow and semicircular, two sides of the snuffing cabin are connected with a plane, two ends of the snuffing cabin are opened, a protruding chuck is arranged outside the plane and used for fixing the snuffing cabin, and a hollow container is used for being filled with different functional components to form the snuffing cabin with different functions; the diameter of the cylindrical ring is 12-14 mm.

Referring to fig. 3, 4, 5 and 6, there is shown a frame view of a snuffing structure according to an exemplary embodiment of the present invention, the structure is as follows:

the framework arc-shaped table 12 is integrally in an arc shape and is easy to bend under external force, a slotted hole is formed in the middle of the framework arc-shaped table and used for installing a nasal suction cabin, two clamping grooves are formed in the two side faces of the framework arc-shaped table respectively and used for fixing a nasal suction shell, and a through hole is formed between the clamping grooves and used for air exchange; the arc length is 40-50 mm.

The nasal obstruction fixed slot 13, the whole is vertical to arc table of skeleton in the axle center of hollow cylindrical ring, both sides of arc table concave surface of skeleton are totally 2; the diameter is 6-8mm, the height is 3-4mm, the arc length of the arc platform between the axes of the two nasal obstruction fixing grooves is 16-20mm, the axial angle of the two nasal obstruction fixing grooves is 20-30 degrees, and the axial angle can change by 0-45 degrees along with the bending of the framework arc platform under the external force.

The casing fixing ring 14 is a semicircular annular arc-shaped platform with bone-knitting frames on two sides, and the inner annular surface of the nasal suction casing can be clamped on the casing fixing ring.

The shell clamping grooves 15 are formed in the two crossed sides of the shell fixing ring and the framework arc-shaped table, and the shell clamping heads are clamped into the fixable nasal suction shell.

The snuffing cabin clamping grooves 16 are integrally circular through holes, and the two clamping grooves are matched with the snuffing cabin clamping heads to fix the snuffing cabin.

Referring to fig. 7, there is shown a perspective view of a nasal prong according to an exemplary embodiment of the present invention, the configuration is as follows:

the nose plug ring 22 is in 2 hollow ellipses with two open ends, is elastic, and has the maximum diameter of 9-13mm and the length of 12-14 mm.

The nose plug fixing ring 23 is integrally hollow cylindrical and annular and is positioned in the bottom end of the nose plug ring, is used for fixing the nose plug and has the diameter of 6-8 mm.

The nasal obstruction connecting strip 24 is positioned outside the bottom end of the nasal obstruction ring and connects the two nasal obstruction rings into an integral long strip body.

Referring to fig. 8, 9, 10 and 11, there is shown a view of an inhaler housing according to an exemplary embodiment of the present invention, the configuration being as follows:

the snuff outer shell 32 is integrally in a hollow semicircular ring shape and connected with a semicircular crown shape, the crown top is provided with a hole, the inner ring surface is used for fixing the snuff shell, and a slotted hole is formed in the surface and used for air exchange between the inside and the outside of the snuff; the diameter of the semicircular ring is 12-14mm, and the central angle is 240 degrees and 270 degrees.

The shell clamping heads 33 are clamping heads on two sides of the semicircular ring surface of the nasal suction shell and are clamped into shell clamping grooves of the nasal suction framework to fix the nasal suction shell.

The snuffing hole 34 is a through hole on the axis of the semicircular crown of the snuffing shell and is used for air exchange between the inside and the outside of the snuffing shell.

Referring to fig. 12, there is shown a perspective view of an inhalation module in accordance with an exemplary embodiment of the present invention, the configuration being as follows:

the nasal inhalation cabin sticker 42 is integrally attached to 2 end faces of the nasal inhalation cabin in a sheet shape, the two ends of the nasal inhalation cabin are sealed, protruding easy-to-tear edges are reserved, the nasal inhalation cabin sticker is torn off when used, and the nasal inhalation cabin sticker is made of sanitary materials and can be made of plastics and metals.

The snuffing cabin clamping head 43 is integrally cylindrical and is matched with the snuffing cabin clamping groove, and the snuffing cabin is fixed in the middle of the convex surface of the snuffing framework.

Referring to fig. 13 and 14, a view of a liquid formulation compartment according to an exemplary embodiment of the present invention is shown, the structure being as follows:

a liquid agent cabin shell 52, wherein two sides of the whole body of the liquid agent cabin shell are connected with a plane in a hollow semi-cylindrical shape, two ends of the whole body are opened, a clamping head is arranged in the middle of the plane, a clamping ring is arranged in the middle of the inner ring surface, a hollow container is used for filling liquid, and liquid agent cabin cotton is filled in the hollow container; the diameter of the cylindrical ring is 12-14mm, and the height of the cylindrical ring is 6-10 mm.

The liquid cabin cotton 53 is integrally a semi-cylinder, an annular groove is formed in the middle of the cylindrical surface and used for adsorbing volatile liquid, the liquid cabin cotton is filled into a liquid cabin shell, and the liquid cabin shell is made of sanitary-grade materials which can easily adsorb liquid and can be made of fibers, sponges and artificial cotton.

The tank inner clamping head 54 is integrally and annularly positioned in the middle of the inner annular surface of the liquor tank shell and is matched with the annular groove in the middle of the liquor tank cotton to fix the liquor tank cotton in the middle of the liquor tank shell.

Referring to fig. 15 and 16, a powder capsule according to an exemplary embodiment of the present invention is shown in a view, which is as follows:

the powder cabin shell 62 is integrally in a hollow semi-cylindrical shape, two sides of the powder cabin shell are connected with a plane, two ends of the plane are opened, a clamping head is arranged in the middle of the plane, a crown-shaped protrusion is arranged in the middle of the inner plane and used for fixing the inner shell, and the hollow container is used for loading the inner shell and a powder cabin net of the powder cabin; the height is 6-10 mm.

The inner shell 63 of the powder cabin is integrally hollow semi-cylindrical, two sides of the inner shell are connected with a plane, two ends of the inner shell are opened, the inner shell can be tightly arranged in the powder cabin, a groove or a through hole is arranged in the middle of the plane and is correspondingly matched with the crown-shaped protrusion in the powder cabin, and the hollow container is used for arranging solid powder.

The powder cabin net 64 is integrally adhered to 2 end faces of the inner shell of the powder cabin in a thin net shape, two ends of the inner shell of the powder cabin are sealed, and solid powder particles can not pass through but only volatile gas can pass through; is made of sanitary material and may be used in fiber and gauze.

The inner shell slot 65 is a circular groove or a circular through hole on the whole, is arranged in the middle of the plane of the inner shell of the powder cabin, and is matched with the protruding crown part at the corresponding position of the powder cabin shell to fix the inner shell of the powder cabin or seal the slot hole, and can be used as a powder injection hole when the slot hole is a through hole.

Referring to fig. 17 and 18, a view of a heating chamber according to an exemplary embodiment of the present invention is shown, which is configured as follows:

a heating chamber shell 72, which is integrally in a hollow semi-cylindrical shape, two sides of which are connected with a plane, two ends of which are opened, the middle of the plane is provided with a switch hole, a hollow container is used for filling liquid, heating chamber cotton, a heater, a battery module, a control module and a heating chamber switch; the height is 10-14 mm.

The heating cabin cotton 73 is integrally half-cylinder-shaped and fixed at two ends in the heating cabin shell for adsorbing volatile liquid, is made of sanitary materials easy for adsorbing liquid, and can be made of fibers, sponges and artificial cotton.

The heater 74 may be fabricated using heating wires, heating strips, thick film printed heating circuits, and the like.

The battery module 75 may be a battery or a current stabilizing protection circuit.

The control module 76, which may employ thermistors, thermal sensors, controls the magnitude of the output current or blocks it.

The heating chamber switch 77 may be a two-contact, contact switch, or spring switch.

Referring now to fig. 19 and 20, there is shown a view of an atomization chamber according to an exemplary embodiment of the present invention, which is configured as follows:

the atomizing cabin shell 82 is integrally in a hollow semi-cylindrical shape, two sides of the atomizing cabin shell are connected with a plane, one end or two ends of the atomizing cabin shell are opened, a switch hole is formed in the middle of the plane, and the hollow container is used for filling liquid, an atomizing liquid cabin, an atomizer, a power module and an atomizing cabin switch; the height is 10-14 mm.

The atomization liquid tank 83 is a hollow liquid container having a half-cylindrical shape as a whole, and is used for containing liquid and is connected to an atomizer.

The atomizer 84 is formed by 1-2 ultrasonic liquid atomizers and is arranged at one end or two ends of the atomizing cabin shell; if only the liquid beneficial to the lung is filled, as 2 nostrils are communicated with the lung, 1 atomizer can also play a beneficial role.

The power module 85, which uses a battery, a current stabilizing circuit and an oscillating circuit, outputs a stable high-frequency current for the atomizer.

The atomization chamber switch 86 can be a two-contact switch, a contact switch or a spring switch.

Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (10)

1. A multifunctional snuffing device adaptive to nose shape is characterized in that:

the multi-functional snuff of adaptation nose shape includes: the nasal inhalation framework, the nasal obstruction, the nasal inhalation shell and the nasal inhalation cabin are matched with the nasal shape;

the snuffing framework (11) is configured to change radian along with the axis angle of the nostril and is used for assembling a nasal plug, a snuffing shell and a carrier of a snuffing cabin, a container is established after combination, and air breathed by the nasal cavity enters and exits the container and is mixed with air volatilized from the snuffing cabin;

a nasal prong (21) configured for insertion into a nostril of a user, establishing a breathing passage, and securing snuff out of the nostril of the user;

a snuffing shell (31) configured for combination with a snuffing skeleton, a snuffing cabin into a container for gas mixing;

the snuffing cabin (41) is configured to be fixed in the middle of the snuffing framework, volatile liquid and a solid carrier are filled in the snuffing framework, gas is volatilized from one end or two ends of the snuffing framework, beneficial effects are generated after the snuffing framework is inhaled into a nasal cavity by a user, and the user can select the snuffing cabin with different functions;

the nose shape fitting device comprises a fitting nose shape and is configured to enable a user to select nose suckers or nose suckers components which are suitable for the nose shape of the user in different sizes according to the nose shape.

2. The apparatus of claim 1, wherein:

the snuffing framework (11) comprises: the nasal cavity comprises a framework arc-shaped platform, a nasal obstruction fixing groove, a shell fixing ring, a shell clamping groove and a nasal inhalation cabin clamping groove; the snuffing framework is integrally arc-shaped and easy to bend under external force, a semicircular annular shell fixing ring and two shell clamping grooves are respectively arranged on two sides of a convex surface, a circular snuffing cabin clamping groove is arranged in the middle of the convex surface, and hollow annular nose plug fixing grooves are arranged on two sides of the concave surface;

the framework arc table (12) is configured to be used for enabling an arc surface to be attached to a nose shape and be easy to bend, the radian of the arc is changed along with the axis angle of the two nose plug rings, and the arc length is 40-50 mm;

the nasal plug fixing grooves (13) are configured to be matched with the nasal plug fixing rings to fix the nasal plugs in the middle of the concave surfaces of the nasal inhalation framework, the number of the two sides of the nasal plug fixing grooves is 2, the diameter of the nasal inhalation framework is 6-8mm, the height of the nasal plug fixing grooves is 3-4mm, the arc length of an arc table between the axle centers of the two nasal plug fixing grooves is 16-20mm, the axle center angle of the two nasal plug fixing grooves is 20-30 degrees, and the axle center angle can be changed by 0-45 degrees along with the;

the shell fixing rings (14) are configured to be matched with the inner ring surface of the snuffing shell to fix the snuffing shell on two sides of the convex surface of the snuffing framework;

the shell clamping grooves (15) are configured to be matched with the shell clamping heads to fix the snuffing shell on two sides of the convex surface of the snuffing framework;

and the nasal inhalation cabin clamping groove (16) is configured to be matched with the nasal inhalation cabin clamping head to fix the nasal inhalation cabin in the middle of the convex surface of the nasal inhalation framework.

3. The apparatus of claim 1, wherein:

the nose plug (21) in turn comprises: the nose plug ring, the nose plug fixing ring and the nose plug connecting strip; the whole body is 2 hollow oval rings with openings at two ends, the bottoms of the oval rings are connected into a whole by a strip, and the bottoms of the oval rings are internally connected with a circular nose plug fixing ring and have elasticity;

a nasal insert (22) configured for insertion into a user's nare, securing the snuff outside the user's nare, establishing a breathing passage; the distance between the axes of the two nasal obstruction rings is 16-20mm, and the maximum diameter of the nasal obstruction ring is 9-13 mm;

the nasal plug fixing ring (23) is configured to be matched with the nasal plug clamping groove to fix the nasal plug on the concave surface of the nasal inhalation framework;

a nasal prong connecting strip (24) configured to integrate the 2 nasal prong loops, preventing a user from inhaling the nasal prong loops into the nasal cavity.

4. The apparatus of claim 1, wherein:

the nasal suction shell (31) in turn comprises: the snuffing shell, a shell chuck and a snuffing hole; the whole body is in a hollow semi-circular shape and is connected with a semi-circular crown shape, a nose suction hole is formed in the crown top, shell chucks are arranged on two sides of the semi-circular ring surface, and a slotted hole can be formed in the optional shell surface to beautify the appearance;

the snuffing shell (32) is configured to be used for forming a gas exchange container with the snuffing framework, and the inner ring surface of the snuffing shell is matched with the shell fixing ring to fix the snuffing shell on the snuffing framework; the diameter of the semicircular ring is 12-14mm, and the central angle is 240 degrees and 270 degrees;

the shell clamping heads (33) are configured to be matched with the shell clamping grooves to fix the snuffing shell on two sides of the convex surface of the snuffing framework;

and the snuffing hole (34) is configured as a vent hole for communicating the inside of the snuffing with the outside of the snuffing, and a groove hole can be formed in the snuffing shell.

5. The apparatus of claim 1, wherein:

the snuffing compartment (41) in turn comprises: a nasal inhalation cabin sticker, a nasal inhalation cabin chuck, a liquid cabin, a powder cabin, a heating cabin and an atomization cabin; the two sides of the whole body are connected with a plane in a hollow semicircular shape, one end or two ends of the plane are provided with openings, 2 cylindrical protruding chucks are arranged on the plane and used for fixing the nasal inhalation cabin, and the hollow container is used for being filled with different functional components to form the nasal inhalation cabins with different functions; the diameter of the cylindrical ring is 12-14 mm;

the snuffing cabin paster (42) is configured into sealing paper for sealing holes at two ends of the snuffing cabin and preventing the carrier in the snuffing cabin from volatilizing; the whole body is attached to the 2 end of the snuffing cabin in a sheet shape, the snuffing cabin is sealed, and a protruding easy-to-tear edge is reserved and torn off when the snuffing cabin is used;

the snuffing cabin clamping head (43) is configured to be matched with the snuffing cabin clamping groove to fix the snuffing cabin in the middle of the convex surface of the snuffing framework;

the liquid agent cabin (51) is configured as a carrier for containing volatile liquid, the liquid carrier is absorbed in the liquid agent cabin cotton in the middle, and volatile gas reaches the two nasal suction shell containers through the left end and the right end to be mixed with breathing air;

a powder cabin (61) configured as a carrier for containing powder and particles with volatile smell, the solid carrier is isolated between the two end nasal inhalation cabin nets, and volatile gas reaches the two nasal inhalation shell containers through the left and right end nasal inhalation cabin nets to be mixed with breathing air;

the heating cabin (71) is configured to contain liquid as a carrier, the liquid carrier is adsorbed in the heating cabin cotton at two ends and is easy to volatilize after being heated by the heating device, and volatilized gas reaches the two nasal inhalation shell containers through the two ends and is mixed with breathing air;

and the atomizing chamber (81) is configured as a carrier for containing liquid, the liquid carrier is contained in an inner liquid container, and after being atomized by an atomizer at one end or two ends, atomizing gas reaches the inside of the nasal inhalation shell container through one end or two ends and is mixed with breathing air.

6. The apparatus of claim 5, wherein:

the liquor compartment (51) in turn comprises: liquid cabin shell, liquid cabin cotton and cabin inner clamping head; the two sides of the whole hollow semi-cylindrical shape are connected with a plane, the two ends of the whole hollow semi-cylindrical shape are opened, a clamping head is arranged in the middle of the plane, a clamping ring is arranged in the middle of the inner ring surface, and the hollow container is used for filling liquid and liquor cabin cotton; the height of the cylindrical ring is 6-10 mm;

a liquid formulation chamber shell (52) configured to hold a volatile liquid, a nasal inhalation chamber cotton, a carrier for gas volatilization through both ends;

liquid chamber cotton (53) configured to adsorb volatile liquid, the liquid easy to volatilize adsorbing cotton;

an in-tank clamp (54) configured to secure the liquor tank cotton in an intermediate position within the liquor tank.

7. The apparatus of claim 5, wherein:

the powder compartment (61) in turn comprises: a powder cabin shell, a powder cabin inner shell, a powder cabin net and an inner shell slot; the two sides of the whole body of the hollow semi-cylindrical shape are connected with a plane, the two ends of the whole body are opened, the middle of the plane is provided with a chuck, the middle of the internal plane is provided with a crown-shaped protrusion for fixing an inner shell or sealing a slotted hole of the inner shell, the hollow container is used for loading the inner shell of the powder cabin and a powder cabin net, the powder cabin is hollow and is used for loading solid powder, and the two ends of the powder cabin; the height of the cylindrical ring is 6-10 mm;

a powder capsule shell (62) configured for loading into the powder capsule inner shell, a powder capsule mesh, a carrier for gas volatilization through both ends;

a powder cabin inner shell (63) which is configured to be used for sealing two ends and internally filling solid powder, and volatile gas can pass through the carriers at the two ends;

a powder cabin net (64) which is configured as an isolation net for closing two ends of the inner shell of the powder cabin, isolating solids and only volatilizing gas passes through;

an inner shell slot (65) configured as a slot for securing the inner shell within the powder capsule shell, optionally an injection hole for solid powder particles.

8. The apparatus of claim 5, wherein:

the heating compartment (71) in turn comprises: the heating cabin comprises a heating cabin shell, heating cabin cotton, a heater, a battery module, a control module and a heating cabin switch; the two sides of the whole body are connected with a plane in a hollow semi-cylindrical shape, the two ends of the whole body are opened, the middle of the plane is provided with a clamping head and a switch hole, the hollow container is filled with liquid, heating cabin cotton, a heater, a battery module, a control module and a heating cabin switch; the height of the cylindrical ring is 10-14 mm;

a heating chamber housing (72) configured for enclosing a liquid, heating chamber cotton, a heater, a battery module, a control module, a heating chamber switch, a carrier for gas volatilization through both ends;

heating chamber cotton (73) configured for adsorbing volatile liquid, the liquid that is easy to volatilize adsorbing cotton;

a heater (74) configured to heat the liquid in the chamber wool, the liquid being more volatile from both ends when the temperature of the liquid increases;

a battery module (75) configured to provide a stable heating current to the heater;

a control module (76) configured to sense temperature changes, control output of current, control heater temperature;

a heating compartment switch (77); a switch configured to control the circuit, which operates when the heating compartment is mounted to the nasal inhalation frame, may also be used to charge the battery.

9. The apparatus of claim 5, wherein:

the atomization chamber (81) in turn comprises: the device comprises an atomization cabin shell, an atomization liquid cabin, an atomizer, a power module and an atomization cabin switch; the two sides of the whole body are connected with a plane in a hollow semi-cylindrical shape, one end or two ends of the plane are opened, the middle of the plane is provided with a clamping head and a switch hole, and the hollow container is used for filling liquid, an atomized liquid cabin, an atomizer, a power module and an atomized cabin switch; the height is 10-14 mm;

an atomization chamber housing (82) configured for enclosing a liquid, an atomization chamber, an atomizer, a power module, an atomization chamber switch, a carrier for gas atomization release through one or both ends;

an atomization tank (83) configured as an atomization tank inner container for containing liquid, and connected to the atomizer at one end or both ends;

an atomizer (84) configured to atomize the liquid in the atomization chamber for release from one or both ends of the atomization chamber;

a power module (85) configured for providing a stable operating current for the nebulizer;

an aerosol compartment switch (86) configured to control switching of the circuit when the aerosol compartment is mounted to the nasal inhalation frame, the circuit operating and also being operable to charge the battery.

10. The apparatus of claim 1, wherein:

the fitting nose shape includes: the nostril intervals of users are different, the nostril sizes are different, the axis angle of the nostril is different and changes with breathing;

the nostril intervals are different, a group of three nasal suction frameworks with the interval between the nasal obstruction fixing grooves and the arc are adopted, the interval covers 16-20mm, and the interval difference is 2 mm; the arc spacing of 16mm, 18mm and 20mm can be adopted, and the user can select the fitting;

the nostrils have different sizes, and a group of five nasal plugs with the diameters of the nasal plug rings is adopted, the nasal plugs cover 9-13mm, and the distance difference is 1 mm; the diameters of the nose plug rings can be 9mm, 10mm, 11mm, 12mm and 13mm, and the users can select the nose plug rings in a matching way;

the nasal breathing framework is easy to bend and the radian can be changed along with the axis angle of the nasal plug.

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