CN212756743U - Novel oxygen atomizing inhaler for department of respiration - Google Patents

Abstract

The utility model discloses a department of respiration is with novel oxygen nebulizer, include respirator and connect out the mouth of pipe, respirator's front side bottom is connected with the atomizing shell, and the right side of atomizing shell is connected with and inserts the mouth of pipe, the left side of atomizing shell is fixed with the switch, and the bottom of atomizing shell is connected with the bottom, the right flank of atomizing shell is provided with into oxygen mouth, and the rear side internal surface arrangement of atomizing shell has the electric fan, and the downside of liquid-proof pad installs the atomizing piece, the outside of atomizing piece is provided with the cistern, and the below of cistern is provided with the stock solution room, it flows the wheel to insert orificial left side and be provided with the accuse, and the inboard of accuse flow wheel is provided with half wall pipe, the inside of half wall pipe is provided with the separation blade. Be provided with the atomizing shell and insert the mouth of pipe, can let it compare steerable atomizing time with traditional atomizing equipment through the atomizing shell with insert the mouth of pipe, and overall structure compact volume is less with easy to assemble and use.

Description

Novel oxygen atomizing inhaler for department of respiration

Technical Field

The utility model relates to the technical field of medical appliances, in particular to a novel oxygen atomizing inhaler for a respiratory department.

Background

The oxygen atomization inhalation method uses high-speed oxygen airflow to make the liquid medicine form a mist suspension, and then the mist suspension is inhaled into the respiratory tract along with the respiration, so as to achieve the purpose of treatment. The basic principle is that high-speed oxygen flow passes through a capillary orifice and generates negative pressure at the orifice, liquid medicine is sucked out from the adjacent orifice, the sucked liquid medicine is impacted into fine fog drops by the high-speed oxygen flow at the orifice of the capillary orifice and is sprayed out in an aerosol form, and the fine fog drops enter a respiratory tract along with the breathing of a patient to achieve the treatment effect, but the existing related products in the market are not perfect.

In the novel oxygen nebulizer use on the market, the great inconvenient installation of whole volume and use, can not prevent that inside liquid from flowing out in order to influence normal use, can not improve the transport efficiency of atomizing oxygen and run off with the oxygen that reduces inside and stay, can not play and store in order to avoid the wasting of resources to the liquid oxygen who carries, can not make things convenient for disinfection and the clearance to inside after long-time the use, can not realize the problem to the control of carrying oxygen volume and regulation, therefore, we provide a novel oxygen nebulizer that the practicality is higher.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a department of respiration is with novel oxygen nebulizer, with the great inconvenient installation of whole volume and the use of proposing in solving above-mentioned background art, can not prevent that inside liquid from flowing in order to influence normal use, can not improve atomizing oxygen's transport efficiency and run off in order to reduce the inside oxygen of staying, can not play and store in order to avoid the wasting of resources to the liquid oxygen who carries, can not make things convenient for disinfection and the clearance to inside after long-time the use, can not realize the problem to carrying the control of oxygen volume and regulation.

In order to achieve the above object, the utility model provides a following technical scheme: a novel oxygen atomizing inhaler for a department of respiration comprises a respirator and a receiving pipe orifice, wherein the bottom end of the front side of the respirator is connected with an atomizing shell, the right side of the atomizing shell is connected with a receiving pipe orifice, the left side of the atomizing shell is fixed with a switch, the bottom end of the atomizing shell is connected with a bottom cover, the receiving pipe orifice is arranged at the top of the atomizing shell, an atomizing inner chamber is arranged below the receiving pipe orifice, the right side surface of the atomizing shell is provided with an oxygen inlet, an electric fan is arranged on the inner surface of the rear side of the atomizing shell, a communicating channel is arranged at the front end of the electric fan, a mist collecting chamber is fixed at the front end of the communicating channel, a liquid-proof pad is arranged at the bottom end of the mist collecting chamber, an atomizing sheet is arranged at the lower side of the liquid-proof pad, a liquid tank is arranged on the outer side of the atomizing sheet, a liquid storage, and the inner side of the flow control wheel is provided with a half-wall pipe, and a baffle is arranged in the half-wall pipe.

Preferably, a communicating structure is formed between the atomizing shell and the access pipe orifice, and the atomizing shell is fixedly connected with the switch.

Preferably, a communicating structure is formed between the outlet pipe orifice and the atomizing inner chamber, and a communicating structure is formed between the atomizing inner chamber and the oxygen inlet.

Preferably, a communication structure is formed between the electric fan and the communication channel, and a sealing structure is formed between the communication channel and the mist collecting chamber.

Preferably, a communicating structure is formed between the liquid tank and the liquid storage chamber, and a fixing structure is formed between the liquid-proof pad and the atomizing sheet.

Preferably, threaded connection is adopted between the bottom cover and the atomizing shell, and a surrounding structure is formed between the bottom cover and the liquid storage chamber.

Preferably, a rotating structure is formed between the flow control wheel and the half-wall pipe, and a communicating structure is formed between the half-wall pipe and the access pipe orifice.

Compared with the prior art, the beneficial effects of the utility model are that:

this department of respiration is with novel oxygen nebulizer is provided with atomizing shell and access mouth of pipe, can let it compare steerable atomizing time with traditional atomizing equipment through atomizing shell with the access mouth of pipe, and overall structure compact volume is less with easy to assemble and use.

This department of respiration is with novel oxygen nebulizer is provided with and connects out mouth of pipe and atomizing inner chamber, can let it have the effect of storing atomizing gas and carrying the air current through connecing out mouth of pipe and atomizing inner chamber, and can prevent that inside liquid from flowing so as not to influence normal use.

This department of respiration uses novel oxygen atomizing inhaler is provided with electric fan and intercommunication way, can let it drive inside air flow and fog through electric fan and intercommunication way and carry, and can improve the transport efficiency of atomizing oxygen and lose in order to reduce the inside oxygen that stays.

This department of respiration is with novel oxygen nebulizer is provided with cistern and stock solution room, can make the liquid oxygen of transport realize temporary storage to it under the too much condition through cistern and stock solution room and closely, and can play and store in order to avoid the wasting of resources to the liquid oxygen of transport.

This department of respiration is with novel oxygen nebulizer is provided with bottom and stock solution room, can make its accessible adopt to write through bottom and stock solution room and open the inner space of stock solution room, and can conveniently use the disinfection and the clearance of back to inside for a long time.

This department of respiration is with novel oxygen nebulizer is provided with accuse and flows wheel and semi-wall pipe, can restrict the volume of unit time transport at the in-process of the transport of oxygen transport through accuse flow wheel and semi-wall pipe. And the control and adjustment of the oxygen delivery amount can be realized.

Drawings

FIG. 1 is a schematic view of the front three-dimensional structure of the present invention;

FIG. 2 is a schematic side sectional view of the present invention;

fig. 3 is a schematic view of the structure of the baffle of the present invention.

In the figure: 1. a respiratory mask; 2. an atomizing housing; 3. connecting into a pipe orifice; 4. a switch; 5. a bottom cover; 6. a pipe outlet is connected; 7. an atomizing inner chamber; 8. an oxygen inlet; 9. an electric fan; 10. a communicating channel; 11. a mist collecting chamber; 12. a liquid-proof pad; 13. an atomizing sheet; 14. a liquid bath; 15. a liquid storage chamber; 16. a flow control wheel; 17. a half-wall pipe; 18. a baffle plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a novel oxygen atomization inhaler for a department of respiration comprises a respiratory mask 1 and a receiving nozzle 6, wherein the bottom end of the front side of the respiratory mask 1 is connected with an atomization shell 2, the right side of the atomization shell 2 is connected with an access nozzle 3, the left side of the atomization shell 2 is fixed with a switch 4, the bottom end of the atomization shell 2 is connected with a bottom cover 5, a communication structure is formed between the atomization shell 2 and the access nozzle 3, the atomization shell 2 is fixedly connected with the switch 4, the atomization shell 2 and the access nozzle 3 are arranged, the atomization shell 2 and the access nozzle 3 can control atomization time compared with the traditional atomization equipment, and the novel oxygen atomization inhaler is compact in overall structure, small in size and convenient to install and use; the outlet pipe orifice 6 is arranged at the top of the atomizing shell 2, an atomizing inner chamber 7 is arranged below the outlet pipe orifice 6, an oxygen inlet 8 is arranged on the right side surface of the atomizing shell 2, an electric fan 9 is arranged on the inner surface of the rear side of the atomizing shell 2, a communicating structure is formed between the outlet pipe orifice 6 and the atomizing inner chamber 7, a communicating structure is formed between the atomizing inner chamber 7 and the oxygen inlet 8, the outlet pipe orifice 6 and the atomizing inner chamber 7 are arranged, the outlet pipe orifice 6 and the atomizing inner chamber 7 can have the functions of storing atomizing gas and conveying airflow, and the outflow of internal liquid can be prevented so as not to influence normal use;

the front end of the electric fan 9 is provided with a communicating channel 10, the front end of the communicating channel 10 is fixedly provided with a mist collecting chamber 11, a communicating structure is formed between the electric fan 9 and the communicating channel 10, a sealing structure is formed between the communicating channel 10 and the mist collecting chamber 11, the electric fan 9 and the communicating channel 10 are arranged, the electric fan 9 and the communicating channel 10 can drive the air in the electric fan to flow and convey mist, and the conveying efficiency of atomized oxygen can be improved to reduce the loss of oxygen reserved in the electric fan; the bottom end of the mist collection chamber 11 is provided with the liquid-proof pad 12, the lower side of the liquid-proof pad 12 is provided with the atomizing sheet 13, a communicating structure is formed between the liquid tank 14 and the liquid storage chamber 15, the liquid tank 14 and the liquid storage chamber 15 are of a fixed structure, the liquid tank 14 and the liquid storage chamber 15 can be used for temporarily and densely storing the transported liquid oxygen under the condition of excessive transported liquid oxygen, and the transported liquid oxygen can be stored to avoid resource waste;

the liquid tank 14 is arranged on the outer side of the atomizing sheet 13, the liquid storage chamber 15 is arranged below the liquid tank 14, the bottom cover 5 is in threaded connection with the atomizing shell 2, a surrounding structure is formed between the bottom cover 5 and the liquid storage chamber 15, the bottom cover 5 and the liquid storage chamber 15 are arranged, the inner space of the liquid storage chamber 15 can be opened through the bottom cover 5 and the liquid storage chamber 15, and the inner part can be conveniently disinfected and cleaned after long-time use; the left side of the access pipe orifice 3 is provided with a flow control wheel 16, the inner side of the flow control wheel 16 is provided with a half-wall pipe 17, a baffle 18 is arranged inside the half-wall pipe 17, a rotating structure is formed between the flow control wheel 16 and the half-wall pipe 17, a communicating structure is formed between the half-wall pipe 17 and the access pipe orifice 3, the flow control wheel 16 and the half-wall pipe 17 are arranged, and the amount conveyed in unit time can be limited in the conveying process of oxygen conveying through the flow control wheel 16 and the half-wall pipe 17. And the control and adjustment of the oxygen delivery amount can be realized.

The working principle is as follows: with this type of new oxygen nebulizing inhaler, first of all by the breathing mask 1 in contact with the face of the user, then the upper end of the atomizing shell 2 is connected with the breathing mask 1 through the receiving and discharging pipe orifice 6, the receiving pipe orifice 3 is connected with one end of the oxygen tank through a pipeline, the flow control wheel 16 on the left side of the receiving pipe orifice 3 rotates to change the size of a gap through the rotation of the baffle plate 18 and the half-wall pipe 17, then the switch 4 on the left side of the atomizing shell 2 is started, in the process, liquid flows into the liquid tank 14 and the liquid storage chamber 15 from the oxygen inlet 8, the atomizing sheet 13 on the lower side of the liquid-proof cushion 12 atomizes oxygen in the mist collecting chamber 11, and then the oxygen is conveyed into the atomizing inner chamber 7 from the connecting pipe orifice 6 to enter the breathing mask 1 through the communicating channel 10 by the electric fan 9, and the bottom cover 5 can be detached from the bottom of the atomizing shell 2, so that the using process of the whole novel oxygen atomizing inhaler is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A novel oxygen atomizing inhaler for department of respiration comprises a breathing mask (1) and a receiving nozzle (6), and is characterized in that: the bottom end of the front side of the breathing mask (1) is connected with an atomization shell (2), the right side of the atomization shell (2) is connected with an access pipe orifice (3), the left side of the atomization shell (2) is fixed with a switch (4), the bottom end of the atomization shell (2) is connected with a bottom cover (5), a connection pipe orifice (6) is arranged at the top of the atomization shell (2), an atomization inner chamber (7) is arranged below the connection pipe orifice (6), the right side face of the atomization shell (2) is provided with an oxygen inlet (8), the inner surface of the rear side of the atomization shell (2) is provided with an electric fan (9), the front end of the electric fan (9) is provided with a communication channel (10), the front end of the communication channel (10) is fixed with an atomization collection chamber (11), the bottom end of the atomization chamber (11) is provided with a liquid-proof cushion (12), and the lower side of the liquid-proof cushion (12) is, the outside of atomizing piece (13) is provided with cistern (14), and the below of cistern (14) is provided with liquid storage chamber (15), the left side of inserting mouth of pipe (3) is provided with accuse and flows wheel (16), and the inboard of accuse flow wheel (16) is provided with half wall pipe (17), the inside of half wall pipe (17) is provided with separation blade (18).

2. The novel oxygen atomizing inhaler for respiratory department as claimed in claim 1, wherein: constitute the intercommunication structure between atomizing shell (2) and the access mouth of pipe (3), and be fixed connection between atomizing shell (2) and switch (4).

3. The novel oxygen atomizing inhaler for respiratory department as claimed in claim 1, wherein: a communicating structure is formed between the outlet pipe orifice (6) and the atomizing inner chamber (7), and a communicating structure is formed between the atomizing inner chamber (7) and the oxygen inlet (8).

4. The novel oxygen atomizing inhaler for respiratory department as claimed in claim 1, wherein: a communicating structure is formed between the electric fan (9) and the communicating channel (10), and a sealing structure is formed between the communicating channel (10) and the mist collecting chamber (11).

5. The novel oxygen atomizing inhaler for respiratory department as claimed in claim 1, wherein: a communicating structure is formed between the liquid tank (14) and the liquid storage chamber (15), and a fixed structure is formed between the liquid-proof pad (12) and the atomizing sheet (13).

6. The novel oxygen atomizing inhaler for respiratory department as claimed in claim 1, wherein: the bottom cover (5) is in threaded connection with the atomizing shell (2), and an enclosing structure is formed between the bottom cover (5) and the liquid storage chamber (15).

7. The novel oxygen atomizing inhaler for respiratory department as claimed in claim 1, wherein: a rotating structure is formed between the flow control wheel (16) and the half-wall pipe (17), and a communicating structure is formed between the half-wall pipe (17) and the access pipe orifice (3).

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