CN111202865A - Rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer - Google Patents

Abstract

The invention relates to a rhinobyon type Pi-shaped-like four-way ultraviolet breathing sterilizer which comprises a Pi-shaped-like four-way pipe and an ultraviolet generator, wherein the ultraviolet generator is tightly connected with the Pi-shaped-like four-way pipe and comprises a luminous body, the luminous body is arranged in the Pi-shaped-like four-way pipe or at two ends of the Pi-shaped-like four-way pipe, and ultraviolet rays emitted by the luminous body form a safe angle with a nasal cavity respiratory tract; the pi-shaped four-way pipe can ventilate and is made of a material which can not transmit ultraviolet rays. The respiratory disinfector can realize the disinfection of the microenvironment communicated with human organs by ultraviolet rays, can be used as a nasal cavity wearable respiratory protector to kill pathogenic microorganisms existing in the exhaled airflow to enter the environment and the inhaled airflow to be inhaled into the lung, is used for preventing and controlling epidemic respiratory system infectious diseases, and has low cost, convenient use and easy popularization.

Description

Rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer

Technical Field

The invention belongs to the technical field of sanitary protective articles, and particularly relates to a rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer.

Background

Ultraviolet disinfection is a common disinfection means and is widely applied to medical treatment and hygiene disinfection in various fields. Ultraviolet rays are a disinfection factor which is harmful to a human body, and due to safety control problems and problems of the size and the power supply of an ultraviolet ray generator, disinfection of a microenvironment close to a human organ and a microenvironment communicated with the human organ cannot be realized in the prior art.

Through a search, no patent publication related to the present patent application has been found.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a nasal tampon type Pi-like four-way ultraviolet ray breathing sterilizer comprises a Pi-like four-way pipe and an ultraviolet ray generator, wherein the ultraviolet ray generator is tightly connected with the Pi-like four-way pipe and comprises a luminous body, the luminous body is arranged in the Pi-like four-way pipe or at two ends of the Pi-like four-way pipe, and ultraviolet rays emitted by the luminous body form a safe angle with a nasal cavity respiratory tract; the pi-shaped four-way pipe can ventilate and is made of a material which can not transmit ultraviolet rays.

The n-shaped four-way pipe comprises two longitudinal through pipes and a transverse through pipe, the longitudinal through pipes are arranged longitudinally and are arranged in parallel at intervals, the shape of the longitudinal through pipes is matched with that of the nasal cavity, and the two longitudinal through pipes can be placed into or taken out of the nasal cavity; the transverse through pipe is arranged along the horizontal direction, and two ends of the transverse through pipe are both in an open shape; the longitudinal same side end parts of the two longitudinal through pipes are tightly communicated with the middle part of the transverse through pipe, and the longitudinal other ends of the two longitudinal through pipes are in an open shape;

the diameter of the transverse through pipe is larger than that of the longitudinal through pipe, and the length of the transverse through pipe is larger than that of the longitudinal through pipe.

Moreover, the two longitudinal through pipes and the transverse through pipe are integrally manufactured;

or the luminous body of the ultraviolet generator is an ultraviolet lamp tube or a lamp bead which is arranged in the transverse through tube or at two open ends of the transverse through tube, the ultraviolet ray emitted by the luminous body forms a safe angle with the nasal cavity respiratory tract, and the ultraviolet ray cannot shoot to the longitudinal through tube;

or the ultraviolet generator is arranged at one opening end of the transverse through pipe, and the other opening end of the transverse through pipe is provided with a ventilation cover which is provided with ventilation holes.

Moreover, the transverse through pipe is U-shaped or U-like, and the opening end of the transverse through pipe and the opening ends of the two longitudinal through pipes are arranged on the same side.

Furthermore, the ultraviolet generator can generate ultraviolet rays with the wavelength of 250-280 nm.

And the ultraviolet generator comprises an ultraviolet lamp tube or an ultraviolet lamp bead, a control module, a power supply module and a USB interface which are sequentially connected, wherein the ultraviolet lamp tube is a UVC micro cold cathode ultraviolet lamp tube.

Moreover, the breathing sterilizer is still including setting up the protection barrier in the through-tube, the protection barrier can filter the disinfection and keep away the ultraviolet ray to the air current. The efficacy and safety of the respiratory disinfector are enhanced.

Moreover, the respiratory protection barrier is a breathable net which is a bionic nose hair, a large-mesh sponge, fluffy fiber clusters, steel wool, an activated carbon sheet, breathable stone particles and a medicine coating which is attached to the breathable net and has a killing effect;

or the protective barrier also comprises an ultraviolet protective coating arranged in the pipe wall of the transverse through pipe;

or the protective barrier also comprises a valve which is arranged at the communicating opening of the longitudinal through pipe and the transverse through pipe and can move along with the breathing fan, and the valve is used for shielding the residual light of ultraviolet rays.

And, the breathing sterilizer still includes fixed knot constructs, and this fixed knot constructs and is connected the setting with pi font four-way pipe and ultraviolet generator respectively, can wear pi font four-way pipe through this fixed knot structure, can make ultraviolet generator fixed setting on pi font four-way pipe through this fixed knot constructs. The fixing structure can be an ear band, a peaked cap and the like.

Moreover, the breathing sterilizer also comprises two simple transparent eye-protecting covers arranged at the two ends of the transverse through pipe and a simple eye-protecting cover/barrier arranged on the outer surface of the lower part of the Pi-shaped four-way pipe.

The invention has the advantages and positive effects that:

1. the respiratory disinfector can realize the disinfection of the microenvironment communicated with human organs by ultraviolet rays, can be used as a nasal cavity wearable respiratory protector to kill pathogenic microorganisms existing in the exhaled airflow to enter the environment and the inhaled airflow to be inhaled into the lung, is used for preventing and controlling epidemic respiratory system infectious diseases, and has low cost, convenient use and easy popularization.

2. The respiratory sterilizer utilizes the structure of a four-way pipe to control the UVC light column emitted by the ultraviolet generator in the transverse through pipe vertical to the nasal cavity, and the control of the light irradiation intensity and the protection setting in the pipe wall barrier and the pipe can achieve the bidirectional performance of effectively killing pathogenic bacteria and viruses in the irradiation range and not damaging the human body. The respiratory protector can kill pathogenic microorganisms existing in the exhaled airflow which is about to enter the environment and the inhaled airflow which is about to be inhaled into the lung, and is used for preventing and controlling epidemic infectious diseases of the epidemic respiratory system.

Drawings

FIG. 1 is a schematic view of a structural connection according to the present invention;

FIG. 2 is a schematic view of another structural connection of the present invention;

FIG. 3 is a schematic view of a partial structural connection of a third structure of the present invention;

FIG. 4 is a schematic view of a partial structural connection of a fourth structure of the present invention;

FIG. 5 is a schematic diagram of structural connections of an ultraviolet lamp tube or an ultraviolet lamp bead, a control module, a power supply module and a USB interface of the ultraviolet generator of the present invention;

fig. 6 is a partial structural connection diagram of a fifth structure according to the present invention.

Detailed Description

The present invention will be further described with reference to specific examples, which are intended to be illustrative, not limiting and are not intended to limit the scope of the invention.

Structures not specifically described in detail herein are to be understood as conventional in the art.

A nasal tampon type Pi-shaped four-way ultraviolet breathing sterilizer is shown in figures 1, 2 and 3 and comprises a Pi-shaped four-way pipe 3 and an ultraviolet generator 12, wherein the ultraviolet generator is tightly connected with the Pi-shaped four-way pipe and comprises a luminous body, the luminous body is arranged in the Pi-shaped four-way pipe or at two ends of the Pi-shaped four-way pipe, and ultraviolet rays emitted by the luminous body form a safe angle with a nasal respiratory tract; the pi-shaped four-way pipe can ventilate and is made of a material which can not transmit ultraviolet rays.

Preferably, the Pi-shaped four-way pipe comprises two longitudinal through pipes 7 and a transverse through pipe 9, the longitudinal through pipes are longitudinally arranged and arranged in parallel at intervals, the shape of the longitudinal through pipes is matched with that of the nasal cavity, and the two longitudinal through pipes can be placed into or taken out of the nasal cavity; the transverse through pipe is arranged along the horizontal direction, and two ends of the transverse through pipe are both in an open shape; the longitudinal same side end parts of the two longitudinal through pipes are tightly communicated with the middle part of the transverse through pipe, and the longitudinal other ends of the two longitudinal through pipes are in an open shape;

the diameter of the transverse through pipe is larger than that of the longitudinal through pipe, and the length of the transverse through pipe is larger than that of the longitudinal through pipe.

Preferably, the two longitudinal through pipes and the transverse through pipe are integrally manufactured;

or the luminous body of the ultraviolet generator is an ultraviolet lamp tube or a lamp bead which is arranged in the transverse through tube or at two open ends of the transverse through tube, the ultraviolet ray emitted by the luminous body forms a safe angle with the nasal cavity respiratory tract, and the ultraviolet ray cannot shoot to the longitudinal through tube;

or the ultraviolet generator is arranged at one opening end of the transverse through pipe, the other opening end of the transverse through pipe is provided with a ventilation cover 1, and the ventilation cover is provided with ventilation holes 2.

Preferably, the transverse through pipe is U-shaped or U-like (such as semicircular, V-shaped and the like), and the open ends of the transverse through pipe and the open ends of the two longitudinal through pipes are arranged on the same side.

Preferably, the ultraviolet generator is capable of generating ultraviolet light with a wavelength of 250-280 nm.

Preferably, as shown in fig. 5, the ultraviolet generator includes an ultraviolet lamp 16 or an ultraviolet lamp bead 11, a control module, a power supply module and a USB interface 15, which are connected in sequence, the power supply module may include a battery 14 and a charging management circuit, and the ultraviolet lamp is a UVC micro cold cathode ultraviolet lamp.

Preferably, the respiratory sterilizer further comprises a protective barrier arranged in the pi-like four-way pipe, and the protective barrier can filter and sterilize airflow and keep ultraviolet rays. The efficacy and safety of the respiratory disinfector are enhanced.

Preferably, the respiratory protection barrier is a breathable net which is a bionic nose hair 4, a large-mesh sponge, a fluffy fiber cluster, steel wool, an activated carbon sheet, breathable stone particles and a medicine coating which is attached to the breathable net and has a disinfecting effect;

or the protective barrier also comprises an ultraviolet protective coating arranged in the pipe wall of the transverse through pipe;

or the protective barrier also comprises a valve 8 which is arranged at the communication port of the longitudinal through pipe and the transverse through pipe and can move along with the breathing fan, and the valve is used for shielding the residual light of ultraviolet rays.

Preferably, the respiratory sterilizer further comprises a fixing structure, the fixing structure is respectively connected with the pi-shaped four-way pipe and the ultraviolet generator, the pi-shaped four-way pipe can be worn through the fixing structure, and the ultraviolet generator can be fixedly arranged on the pi-shaped four-way pipe through the fixing structure. The fixing structure can be an ear band, a peaked cap and the like.

Preferably, the respiratory sterilizer further comprises two simple transparent eye shields arranged at two ends of the transverse through pipe and a simple mask/barrier arranged on the outer surface of the lower part of the pi-shaped four-way pipe.

Example 1

The snuffle type pi-shaped four-way pipe comprises two longitudinal through pipes and a transverse through pipe, wherein the longitudinal through pipes are longitudinally arranged and are arranged in parallel at intervals, the shape of the longitudinal through pipes is matched with that of a nasal cavity, and the two longitudinal through pipes can be placed into or taken out of the nasal cavity; the transverse through pipe is arranged along the horizontal direction, and two ends of the transverse through pipe are both in an open shape; the longitudinal same side end parts of the two longitudinal through pipes are tightly communicated with the middle part of the transverse through pipe, and the longitudinal other ends of the two longitudinal through pipes are in an open shape;

the diameter of the transverse through pipe is larger than that of the longitudinal through pipe, and the length of the transverse through pipe is larger than that of the longitudinal through pipe.

In order to adapt to individual difference of nostril sizes, nose plugs which are different in size and can be detached are arranged at the front ends of the two longitudinal tubes.

The material of the four-way pipe is light-tight plastic, metal or resin, so as to ensure that ultraviolet rays cannot penetrate through the pipe wall.

Example 2

The luminous body is ultraviolet tube or lamp pearl, and ultraviolet tube or lamp pearl set up in horizontal siphunculus or two open ends of horizontal siphunculus, and the ultraviolet ray that the luminous body sent is safe angle with nasal cavity respiratory track, and ultraviolet ray can not the directive nasal cavity respiratory track. The safe angle between the ultraviolet ray and the nasal cavity respiratory tract is the safe angle between the ultraviolet ray and the longitudinal tube, and comprises the angle that the ultraviolet ray is parallel to the longitudinal tube at the two sides of the longitudinal tube, the angle that the ultraviolet ray is transversely vertical to the longitudinal tube or the angle that other ultraviolet rays can not shoot to the longitudinal tube. The angle of the ultraviolet ray emitted by the luminous body depends on the installation position of the luminous body in the four-way pipe.

Example 3

The ultraviolet generator is arranged at the port of the transverse through pipe, and can be arranged on one side or opposite to the other side. The ultraviolet generator adopts the wavelength at 260 supple between the 280nm UVC LED ultraviolet lamp pearl, and the lamp pearl parameter is: the power is 0.2-1W, the current is 5-9mw, the voltage is 5-9V, and the light oblique angle is 60 degrees, and the accessory devices can be a power supply, a circuit aluminum substrate, a controller, a switch 13, a fixed protection (shell) and the like. The power supply adopts a button cell matched with the parameters of the lamp beads, the fixed protection (shell) device adopts a bottle cap shape, the lamp beads and the switch buttons are arranged outside the shell, and the lamp beads are electrically connected with accessory devices except the shell. The bottle cap-shaped shell is provided with a front edge which is screwed and fixed with the port of the transverse through pipe. Ultraviolet light beams emitted by the lamp beads irradiate along the transverse through pipe in the inner space of the transverse through pipe, and the port wall of the transverse through pipe is provided with a surrounding air hole 6.

Example 4

As shown in fig. 4 and 6, the ultraviolet generator is respectively disposed at two side ports of the U-shaped or U-like-shaped through pipe. The ultraviolet generator adopts UVC miniature cold cathode ultraviolet lamp tube with wavelength of 250-280NM and power of 0.5-1W, and its auxiliary devices are power supply, rectifier circuit board, controller and fixed protection device. The power supply adopts a battery matched with the parameters of the miniature cold cathode ultraviolet lamp tube, and the miniature ultraviolet lamp tube is electrically connected with an accessory device except the shell. The miniature ultraviolet lamp tube is vertically placed in the space at two sides of the U-shaped or similar U-shaped through pipe to disinfect the circulated exhaled and inhaled air. The accessory device can be arranged on the ear hanging side of the ear belt or on the rear wall of the peaked cap, and the peaked cap and the rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer form a wearable whole.

Or, the ultraviolet generator is set to be a 7-shaped structure, wherein 17 can be a battery holding space, the transverse end is in a buckle cover shape like embodiment 2, and the vertical end is a long cylindrical accommodating cylindrical battery and accessories such as an inverter circuit board.

Example 5

The respiratory protection barrier arranged in the transverse through pipe or the variant transverse through pipe adopts bionic nose hair which is animal hair with skin or artificial synthetic hair with a bottom surface, when in use, the skin surface is rolled up and stuck on the inner wall of the transverse through pipe, and the adhered bionic nose hair radiates from the periphery to the central shaft of the through pipe.

Example 6

Set up in the horizontal logical pipe of horizontal siphunculus or variation and breathe the protection barrier and adopt bionical nose hair, bionical nose hair is the brush structure of test tube, and the nose hair is planted in winding double-stranded wire and is formed the brush protection barrier of test tube, and bionical nose hair uses winding double-stranded wire to be radial all around as central axial.

Example 7

The respiratory protection barrier arranged in the transverse through pipe or the variant transverse through pipe adopts large-mesh sponge, fluffy fiber clusters, steel wool and activated carbon sheets.

Example 8

The surfaces of the respiratory protection barriers of examples 5-7 are provided with a drug coating with a germ and virus killing effect, which can be applied to the local part of the transverse duct or the variant transverse duct, either alone or in combination.

The respiratory protection barrier also comprises a valve which is arranged at the communicating port of the longitudinal through pipe and the transverse through pipe and moves along with the respiratory fan, and the valve is used for shielding the residual light of ultraviolet rays.

The respiratory protection barrier also includes a uv protective coating such as a metal powder or epoxy coating on the transverse walls. The arrangement of the protective layer can ensure that ultraviolet rays do not penetrate through the tube wall to be radiated outside.

Example 9

The tail end of the U-shaped or U-like-shaped through pipe is fixedly connected with the simple closed eyeshade, the side wall of the eyeshade is provided with a deformable and shaped metal sheet, the tail end of the U-shaped through pipe is provided with a socket, and the distance and the height of the eyeshade on two sides can be determined according to various differences when the socket is fixed. The eye mask is made of light transparent plastic.

Example 10

The mask protecting cover (barrier) on the outer surface of the lower part of the pi-shaped bionic four-way pipe is thick and dense artificial beards with width and length capable of shielding openings and drug coatings on the surface, the artificial beards are made of animal long hair or synthetic long hair with bottom skin, the skin end is fixed on the outer wall of the lower part of the four-way pipe when the mask is used, the long hair end is set to be a free end like beards, and the mask protecting cover is detachable for repeated use and convenient use. The mask (barrier) can also be made of disposable mask material.

The using method of the rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer can be as follows:

when the device is used, the two longitudinal through pipes are inserted into a nasal cavity, the ear belts are worn on the two longitudinal through pipes, the peaked caps are worn on the two longitudinal through pipes, and the switches of the ultraviolet generators arranged at the two ends of the transverse through pipe or the varied transverse through pipe are turned on to enable the ultraviolet generators to be in a working state. The ultraviolet ray continuous radiation is needed to be continuously worn and kept for preventing and controlling respiratory tract infectious diseases. The arrangement of the protective barrier in the transverse through pipe or the variant transverse through pipe can be flexibly selected, and the medicine coating applied to the protective barrier can be flexibly controlled and selected. The agents that can be used as a coating of the protective barrier surface can be commercially available biocides that are adherent and free of harmful volatile components. Such as chlorhexidine acetate antiseptic colloidal solution, iodophor, etc. The sterilizer of the invention can also be used for preventing and controlling infectious diseases of beasts.

The action principle and the safety discussion of the rhinobyon type Pi-shaped four-way ultraviolet breathing sterilizer can be as follows:

the respiratory disinfector adopts a UVC ultraviolet generator with the wavelength of 250-280nm, and the ultraviolet of the wave band has strong killing effect on pathogenic microorganisms. The vertical total stroke (length) of a four-way transverse through pipe or a U-shaped through pipe adopted by the respiratory disinfector is between 50 and 100 mm; the diameter is between 15 and 25mm, although the energy of ultraviolet rays is small, the ultraviolet rays are limited in a narrow breathing passage at a short distance to play a role, and the preset prevention and control purpose can be basically achieved. Especially, the ultraviolet lamp beads at the two ends of the transverse pipe are symmetrically arranged, so that the low-power ultraviolet irradiation intensity is multiplied, the problem of low power of the miniature ultraviolet generator is solved to a certain extent, and the light ray blind area caused by oblique angle of light beam irradiation is also solved. The respiratory disinfector is provided with the protective barrier with the disinfecting and killing medicine coating, has strong disinfecting and killing effect, can provide more favorable conditions for the disinfection and killing of ultraviolet rays by adsorbing pathogenic microorganisms and prolonging the time of air flow passing through, and can achieve the effect of double-prevention combined control by the cooperation of the protective barrier and the ultraviolet irradiation disinfection. The four-way pipe is arranged and skillfully utilized to isolate ultraviolet rays from the respiratory tract, and the protective layer and the valve are arranged to provide safer guarantee for the application of the ultraviolet rays, and in addition, the trace ultraviolet rays are safer than before for directly irradiating the human body. The simulated beard of the breathing sterilizer is added with the drug coating, so that the outward transmission of the exhaled infectious germs through the mouth can be effectively prevented and controlled during speaking. The simulated beard has the advantages of being not covered, not influencing speaking, having no uncomfortable feeling when being worn and being capable of being repeatedly used, and compared with the mask, the simulated beard has the advantages that the use flexibility is improved due to the detachable arrangement of the breathing sterilizer. The respiratory sterilizer can control and kill pathogens of respiratory infectious diseases at the source.

In summary, the invention has the advantages that: the ultraviolet ray is arranged in the four-way structure, so that the safety problem of a respiratory infectious disease protector is solved; the bionic protection barrier is arranged in the four-way structure, so that better conditions are provided for ultraviolet irradiation disinfection; the combined arrangement of the ultraviolet rays and the in-tube bionic protection barrier enables the nasal obstruction type ultraviolet breathing disinfection to be perfectly realized, and the nasal obstruction type ultraviolet breathing disinfection device is low in cost, convenient to use and easy to popularize.

Although the embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that: various substitutions, changes and modifications are possible without departing from the spirit and scope of the invention and the appended claims, and therefore the scope of the invention is not limited to the embodiments disclosed.

Claims (10)

1. The utility model provides a nasal plug formula pi font class cross ultraviolet ray breathing disinfector which characterized in that: the respiratory disinfector comprises a pi-shaped four-way pipe and an ultraviolet generator, the ultraviolet generator is tightly connected with the pi-shaped four-way pipe, the ultraviolet generator comprises a luminous body, the luminous body is arranged in the pi-shaped four-way pipe or at two ends of the pi-shaped four-way pipe, and ultraviolet rays emitted by the luminous body form a safe angle with the nasal cavity and respiratory tract; the pi-shaped four-way pipe can ventilate and is made of a material which can not transmit ultraviolet rays.

2. The nasal type pi-like four-way ultraviolet breathing sterilizer of claim 1, wherein: the Pi-shaped four-way pipe comprises two longitudinal through pipes and a transverse through pipe, the longitudinal through pipes are longitudinally arranged, the two longitudinal through pipes are arranged in parallel at intervals, the shape of the longitudinal through pipes is matched with that of a nasal cavity, and the two longitudinal through pipes can be placed into the nasal cavity or taken out of the nasal cavity; the transverse through pipe is arranged along the horizontal direction, and two ends of the transverse through pipe are both in an open shape; the longitudinal same side end parts of the two longitudinal through pipes are tightly communicated with the middle part of the transverse through pipe, and the longitudinal other ends of the two longitudinal through pipes are in an open shape;

the diameter of the transverse through pipe is larger than that of the longitudinal through pipe, and the length of the transverse through pipe is larger than that of the longitudinal through pipe.

3. The nasal type pi-like four-way ultraviolet breathing sterilizer of claim 2, wherein: the two longitudinal through pipes and the transverse through pipe are integrally manufactured;

or the luminous body of the ultraviolet generator is an ultraviolet lamp tube or a lamp bead which is arranged in the transverse through tube or at two open ends of the transverse through tube, the ultraviolet ray emitted by the luminous body forms a safe angle with the nasal cavity respiratory tract, and the ultraviolet ray cannot shoot to the longitudinal through tube;

or the ultraviolet generator is arranged at one opening end of the transverse through pipe, and the other opening end of the transverse through pipe is provided with a ventilation cover which is provided with ventilation holes.

4. The nasal type pi-like four-way ultraviolet breathing sterilizer of claim 2, wherein: the transverse through pipes are U-shaped or U-like, and the open ends of the transverse through pipes and the open ends of the two longitudinal through pipes are arranged on the same side.

5. The nasal type pi-like four-way ultraviolet breathing sterilizer of claim 1, wherein: the ultraviolet generator can generate ultraviolet rays with the wavelength of 250-280 nm.

6. The nasal type pi-like four-way ultraviolet breathing sterilizer of claim 5, wherein: the ultraviolet generator comprises an ultraviolet lamp tube or an ultraviolet lamp bead, a control module, a power supply module and a USB interface which are sequentially connected, wherein the ultraviolet lamp tube is a UVC micro cold cathode ultraviolet lamp tube.

7. A nasal type pi-like four-way ultraviolet breathing sterilizer as claimed in any one of claims 1 to 6, wherein: the respiratory disinfector further comprises a protection barrier arranged in the through pipe, and the protection barrier can filter and disinfect air flow and keep away ultraviolet rays.

8. The nasal type pi-like four-way ultraviolet breathing sterilizer of claim 7, wherein: the protective barrier is a breathable net which is a bionic nose hair, a mesh sponge, fluffy fiber clusters, steel wool, an activated carbon sheet, breathable stone particles and a medicine coating which is attached to the breathable net and has a killing effect;

or the protective barrier also comprises an ultraviolet protective coating arranged in the pipe wall of the transverse through pipe;

or the protective barrier also comprises a valve which is arranged at the communicating opening of the longitudinal through pipe and the transverse through pipe and can move along with the breathing fan, and the valve is used for shielding the residual light of ultraviolet rays.

9. A nasal type pi-like four-way ultraviolet breathing sterilizer as claimed in any one of claims 1 to 6, wherein: the respiratory disinfector further comprises a fixing structure, the fixing structure is respectively connected with the pi-shaped four-way pipe and the ultraviolet generator, the pi-shaped four-way pipe can be worn through the fixing structure, and the ultraviolet generator can be fixedly arranged on the pi-shaped four-way pipe through the fixing structure.

10. A nasal type pi-like four-way ultraviolet breathing sterilizer as claimed in any one of claims 2 to 6, wherein: the breathing sterilizer also comprises two simple transparent eye shields arranged at two ends of the transverse through pipe and a simple eye shield cover/barrier arranged on the outer surface of the lower part of the pi-shaped four-way pipe.

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