CN114632234B

CN114632234B - Atomization inhalation device

Info

Publication number: CN114632234B
Application number: CN202210383179.8A
Authority: CN
Inventors: 崔盈盈; 谈琳
Original assignee: Taizhou Peoples Hospital
Current assignee: Taizhou Peoples Hospital
Priority date: 2022-04-12
Filing date: 2022-04-12
Publication date: 2024-02-13
Anticipated expiration: 2042-04-12
Also published as: CN114632234A

Abstract

The invention discloses a high-efficiency atomization inhalation device, which comprises a base, an oxygen conveying tank, a liquid medicine bottle and an atomization mechanism, wherein the base is provided with a liquid medicine bottle; according to the invention, the liquid medicine is discharged into the atomization bin through the liquid discharge pipe, and then the liquid medicine is refluxed into the liquid medicine bottle from the atomization bin through the reflux pipe, so that the liquid medicine in the atomization bin can be maintained at a height which is about the lower part of the rotating shaft, the turnover support cannot be completely immersed in the liquid medicine, after oxygen is introduced through the air inlet pipe, the rotating shaft and the turnover support are driven to rotate through the discharged oxygen impact driving plate, the rotating shaft and the turnover support are turned together, the turnover support and the driving plate continuously reciprocate downwards to enter the liquid medicine and upwards to separate from the liquid medicine, the stirring and splashing effects of the liquid medicine are formed by the turnover support and the driving plate, the splashed liquid medicine is contacted with the oxygen more fully, and the dispersibility and the atomization effect are better.

Description

Atomization inhalation device

Technical Field

The present invention relates to an aerosol inhalation device.

Background

An aerosol inhaler is a device for treating upper respiratory tract diseases, and belongs to medical equipment; the aerosol inhaler is mainly used for treating various upper and lower respiratory diseases, such as common cold, fever, cough, asthma, sore throat, pharyngitis, rhinitis, bronchitis, pneumoconiosis and other diseases in trachea, bronchus, alveolus and chest; the aerosol inhalation treatment is an important and therapeutic method in respiratory disease treatment methods, and is to disperse the medicine into liquid particles suspended in gas through an atomization device, then convey the liquid particles to the respiratory tract for inhalation to reach and be distributed in the lung, thereby achieving the effect of administration in the airway; however, the existing atomization inhaler has poor atomization effect, so that the liquid medicine is easy to drip, the use rate of the liquid medicine is low, some liquid medicine can be precipitated, the drug effect of the liquid medicine is reduced, and the carrying amount and concentration of the liquid medicine are not adjustable.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: provides an atomization inhalation device with good atomization effect, precipitation prevention and adjustable carrying amount of liquid medicine.

In order to solve the problems, the invention adopts the following technical scheme:

an atomization inhalation device comprises a base, an oxygen conveying tank, a liquid medicine bottle and an atomization mechanism; the liquid medicine bottle and the oxygen delivery tank are respectively arranged on two sides of the upper end of the base; an atomization mechanism is arranged between the liquid medicine bottle and the oxygen delivery tank; the atomization mechanism comprises an atomization bin, a rotating shaft, a turnover bracket, a driving plate and a return pipe; the atomization bin is arranged at the upper end of the base and is positioned between the liquid medicine bottle and the oxygen conveying tank; a rotating shaft is rotatably arranged in the middle of the interior of the atomization bin; a plurality of overturning brackets are uniformly arranged around the front end and the rear end of the rotating shaft respectively; a plurality of driving plates are uniformly arranged around the middle of the rotating shaft; an air inlet pipe is arranged at one side of the upper end of the oxygen delivery tank; the air inlet pipe is provided with a power pump; the outer end of the air inlet pipe extends to the lower part of the interior of the atomization bin, the outer end of the air inlet pipe is positioned at one side of the driving plate below the rotating shaft, and the air inlet pipe discharges oxygen and then impacts the driving plate to rotate; a liquid discharge pipe is arranged on the liquid medicine bottle; the lower end of the liquid discharge pipe extends to the lower part of the inside of the liquid medicine bottle; the upper end of the liquid discharge pipe is connected to the upper part of one side of the atomization bin in a penetrating way; the upper end of the return pipe is connected with the middle inside one side of the atomization bin in a penetrating way, and the lower end of the return pipe is connected with one side inside the liquid medicine bottle in a penetrating way; the upper end of the return pipe is positioned at one side below the rotating shaft.

Further, the device also comprises a reflux port adjusting mechanism; the reflux port adjusting mechanism comprises a sealing floating ring and a telescopic floating pipe; a partition is arranged in the middle of the return pipe and comprises an upper floating pipe and a lower positioning pipe; a telescopic floating tube is arranged between the lower end of the upper floating tube and the upper end of the lower positioning tube; the lower end of the lower end positioning tube is fixedly connected to one side of the inside of the liquid medicine bottle in a penetrating way; one side of the atomization bin is provided with a penetration slot; a sealing floating ring is arranged on the cross-connection slot; the upper end of the upper floating pipe is connected to the sealing floating ring in a sealing and penetrating way and extends to the inside of the atomization bin; the upper end of the upper floating pipe is positioned at one side below the rotating shaft; the upper floating pipe is arranged above the lower positioning pipe in a floating way.

Further, the reflux port adjusting mechanism further comprises a guide rod, a guide cylinder, a thread bush and a driving screw; the upper ends of two sides of the lower end positioning tube are respectively provided with a driving screw and a guide cylinder; the driving screw is rotationally clamped at one side of the lower end positioning tube; the lower ends of two sides of the upper floating pipe are respectively provided with a thread bush and a guide rod; the guide rod is inserted into the guide cylinder; the driving screw is screwed in the thread sleeve; the driving screw rod rotates to drive the upper floating pipe to move up and down.

Further, one side of the lower end positioning tube is provided with a positioning plate; the driving screw is rotationally clamped on the positioning plate.

Further, the sealing floating ring is made of rubber material; the telescopic floating tube is made of corrugated tube materials.

Further, a positioning block is respectively arranged at the front and the rear of the inside of the atomization bin; the inner side of the positioning block is provided with a rotary clamping groove; two ends of the rotating shaft are respectively provided with a rotary clamping tooth; the rotating shaft is rotationally clamped on the rotating clamping groove at the inner side of the positioning block through rotating clamping teeth at two ends.

Further, a support column is arranged at the bottom of the atomization bin; the lower extreme fixed mounting of support column is in the upper end of base.

Further, the outer end of the driving plate is positioned on the inner side of the outer end of the overturning bracket.

Further, a liquid adding pipe is arranged at one side of the upper end of the liquid medicine bottle.

Further, an atomization tube is arranged at the upper end of the atomization bin.

The beneficial effects of the invention are that

1. According to the invention, the traditional atomization mode that the stirring structure is completely immersed in the liquid medicine to stir and then the gas is introduced into the liquid medicine to discharge is changed, the liquid medicine is discharged into the atomization bin through the liquid discharge pipe, and then the liquid medicine is refluxed into the liquid medicine bottle from the atomization bin through the reflux pipe, so that the liquid medicine in the atomization bin can be maintained at a right and left height below a rotating shaft, the turnover support cannot be completely immersed in the liquid medicine, and after oxygen is introduced through the air inlet pipe, the driving plate is impacted to rotate through the discharged oxygen, so that the rotating shaft and the turnover support are turned together, the liquid medicine is continuously and reciprocally introduced downwards and separated from the liquid medicine upwards through the plurality of turnover supports and the driving plate, the stirring and splashing effects of the liquid medicine are formed, the splashed liquid medicine is enabled to be in full contact with the oxygen, and the dispersibility and the atomization effect are better.

2. The invention is provided with the reflux port adjusting mechanism, and the upper floating pipe can be driven to move up and down by driving the screw rod to rotate, so that the upper and lower positions of the reflux port in the atomization bin can be adjusted, the height and the liquid medicine amount of the liquid medicine in the atomization bin can be adjusted, the amount of the liquid medicine carried in the atomization airflow can be adjusted, and the adjustment can be performed.

3. According to the liquid medicine bottle, the liquid medicine in the liquid medicine bottle is continuously discharged from the liquid discharge pipe and flows back from the return pipe, so that the anti-precipitation effect of the liquid medicine in the liquid medicine bottle is realized; the energy-saving driving purpose is realized by the rotation of the discharged oxygen impact driving plate.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the atomizing mechanism according to the present invention.

Fig. 3 is a schematic view of a partially enlarged structure of fig. 2 according to the present invention.

Fig. 4 is an enlarged schematic view of the return port adjusting mechanism of the present invention.

Fig. 5 is a schematic top view of the atomizing chamber, the rotating shaft, the turnover support and the driving plate.

Description of the embodiments

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, an aerosol inhalation device comprises a base 1, an oxygen delivery tank 3, a liquid medicine bottle 2 and an atomization mechanism 4; the liquid medicine bottle 2 and the oxygen delivery tank 3 are respectively arranged on two sides of the upper end of the base 1; an atomization mechanism 4 is arranged between the liquid medicine bottle 2 and the oxygen delivery tank 3; the atomizing mechanism 4 comprises an atomizing bin 41, a rotating shaft 42, a turnover bracket 43, a driving plate 44 and a return pipe; the atomization bin 41 is arranged at the upper end of the base 1 and is positioned between the liquid medicine bottle 2 and the oxygen delivery tank 3; a rotating shaft 42 is rotatably installed in the middle of the inside of the atomizing bin 41; a plurality of overturning brackets 43 are uniformly arranged around the front end and the rear end of the rotating shaft 42 respectively; a plurality of driving plates 44 are uniformly arranged around the middle of the rotating shaft 42; an air inlet pipe 31 is arranged at one side of the upper end of the oxygen delivery tank 3; the air inlet pipe 31 is provided with a power pump 32; the outer end of the air inlet pipe 31 extends to the lower part of the inside of the atomization bin 41, the outer end of the air inlet pipe 31 is positioned at one side of the driving plate 43 below the rotating shaft 42, and the air inlet pipe 31 discharges oxygen and then impacts the driving plate 44 to rotate; a liquid discharge pipe 21 is arranged on the liquid medicine bottle 2; the lower end of the liquid discharge pipe 21 extends to the lower part of the liquid medicine bottle 2; the liquid discharge pipe 21 is provided with a driving pump 22; the upper end of the liquid discharge pipe 21 is connected to the upper part of one side of the atomization bin 41 in a penetrating way; the upper end of the return pipe is connected with the middle inside one side of the atomization bin 41 in a penetrating way, and the lower end of the return pipe is connected with one side inside the liquid medicine bottle 2 in a penetrating way; the upper end of the return pipe is located on the lower side of the rotary shaft 42.

As shown in fig. 1 to 5, in order to realize the adjustment of the carrying amount of the liquid medicine and the reasonable adjustment of the height of the liquid medicine, the device further comprises a reflux port adjusting mechanism 5; the backflow port adjusting mechanism 5 comprises a sealing floating ring 51 and a telescopic floating pipe 52; a partition is arranged in the middle of the return pipe, and comprises an upper floating pipe 451 and a lower positioning pipe 452; a telescopic floating pipe 52 is arranged between the lower end of the upper floating pipe 451 and the upper end of the lower positioning pipe 452; the lower end of the lower end positioning tube 452 is fixedly connected to one side of the inside of the liquid medicine bottle 2 in a penetrating way; one side of the atomization bin 41 is provided with a penetration slot 413; a sealing floating ring 51 is arranged on the through slot 413; the upper end of the upper floating pipe 451 is connected to the sealing floating ring 51 in a sealing manner and extends to the inside of the atomization bin 41; the upper end of the upper floating pipe 451 is positioned at one side below the rotation shaft 42; the upper floating pipe 451 is vertically floating and mounted above the lower positioning pipe 452. Further, the reflux inlet adjusting mechanism 5 further comprises a guide rod 55, a guide cylinder 54, a threaded sleeve 53 and a driving screw 56; the upper ends of the two sides of the lower end positioning tube 452 are respectively provided with a driving screw 56 and a guide cylinder 54; the driving screw 56 is rotationally clamped at one side of the lower end positioning tube 452; the lower ends of both sides of the upper floating pipe 451 are respectively provided with a thread bush 53 and a guide rod 55; the guide rod 55 is inserted into the guide cylinder 54; the driving screw 56 is screwed in the thread sleeve 53; the drive screw 56 rotatably drives the upper float tube 452 up and down. Further, a positioning plate 57 is provided on one side of the lower end positioning tube 452; the driving screw 56 is rotatably clamped on the positioning plate 57.

As shown in fig. 1 to 5, further, the seal floating ring 51 is made of a rubber material; the telescoping float tube 52 is made of bellows material. Further, a positioning block 422 is respectively disposed in front of and behind the atomization bin 41; a rotary clamping groove 423 is formed in the inner side of the positioning block 422; rotary clamping teeth 421 are respectively arranged at two ends of the rotary shaft 42; the rotation shaft 42 is rotatably engaged with the rotation engagement groove 423 inside the positioning block 422 by rotation engagement teeth 421 at both ends. Further, a support column 411 is arranged at the bottom of the atomization bin 41; the lower end of the support column 411 is fixedly mounted on the upper end of the base 1. Further, the outer end of the driving plate 44 is located inside the outer end of the flip bracket 43. Further, a liquid adding tube 23 is provided at one side of the upper end of the liquid medicine bottle 2. Further, an atomization tube 412 is disposed at the upper end of the atomization chamber 41.

The invention changes the traditional atomization mode of completely immersing the stirring structure in the liquid medicine for stirring and then introducing gas for discharging, the liquid medicine is discharged into the atomization bin 41 through the liquid discharge pipe 21, then the liquid medicine is refluxed from the atomization bin 41 into the liquid medicine bottle 2 through the reflux pipe, namely the upper floating pipe 451 and the lower positioning pipe 452, so that the liquid medicine in the atomization bin 41 can be maintained at a height which is about to be below a rotating shaft 42, the turnover support 43 cannot be completely immersed in the liquid medicine, and when oxygen is introduced through the air inlet pipe 31, the rotating shaft 42 and the turnover support 43 are turned together through the impact driving plate 44 of the discharged oxygen, and a plurality of turnover supports 43 and the driving plate 44 continuously reciprocate downwards to enter the liquid medicine and upwards separate from the liquid medicine, so that the stirring and splashing effects of the liquid medicine are formed by the turnover supports 43 and the driving plate 44, so that the splashed liquid medicine is in contact with the oxygen more fully, and the dispersibility and the atomization effect are better.

The invention is provided with the reflux port adjusting mechanism 5, and the upper floating pipe 451 can be driven to move up and down by the rotation of the driving screw 56, so that the up-down position of the reflux port in the atomizing bin 41, namely the longitudinal position of the upper floating pipe 451, can be adjusted, the amount of liquid medicine in the atomizing bin 41 can be adjusted, the concentration of the liquid medicine carried in the atomized airflow can be adjusted, and the adjustment can be performed.

The liquid medicine in the liquid medicine bottle 2 is continuously discharged from the liquid discharge pipe 21 and flows back from the return pipe, so that the anti-precipitation effect of the liquid medicine in the liquid medicine bottle 2 is realized; the energy-saving driving is achieved by the rotation of the discharged oxygen striking the driving plate 44.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims

1. An atomization inhalation device is characterized by comprising a base, an oxygen delivery tank, a liquid medicine bottle and an atomization mechanism; the liquid medicine bottle and the oxygen delivery tank are respectively arranged on two sides of the upper end of the base; an atomization mechanism is arranged between the liquid medicine bottle and the oxygen delivery tank; the atomization mechanism comprises an atomization bin, a rotating shaft, a turnover bracket, a driving plate and a return pipe; the atomization bin is arranged at the upper end of the base and is positioned between the liquid medicine bottle and the oxygen conveying tank; a rotating shaft is rotatably arranged in the middle of the interior of the atomization bin; a plurality of overturning brackets are uniformly arranged around the front end and the rear end of the rotating shaft respectively; a plurality of driving plates are uniformly arranged around the middle of the rotating shaft; an air inlet pipe is arranged at one side of the upper end of the oxygen delivery tank; the air inlet pipe is provided with a power pump; the outer end of the air inlet pipe extends to the lower part of the interior of the atomization bin, the outer end of the air inlet pipe is positioned at one side of the driving plate below the rotating shaft, and the air inlet pipe discharges oxygen and then impacts the driving plate to rotate; a liquid discharge pipe is arranged on the liquid medicine bottle; the lower end of the liquid discharge pipe extends to the lower part of the inside of the liquid medicine bottle; the upper end of the liquid discharge pipe is connected to the upper part of one side of the atomization bin in a penetrating way; the upper end of the return pipe is connected with the middle inside one side of the atomization bin in a penetrating way, and the lower end of the return pipe is connected with one side inside the liquid medicine bottle in a penetrating way; the upper end of the return pipe is positioned at one side below the rotating shaft; the device also comprises a reflux port adjusting mechanism; the reflux port adjusting mechanism comprises a sealing floating ring and a telescopic floating pipe; a partition is arranged in the middle of the return pipe and comprises an upper floating pipe and a lower positioning pipe; a telescopic floating tube is arranged between the lower end of the upper floating tube and the upper end of the lower positioning tube; the lower end of the lower end positioning tube is fixedly connected to one side of the inside of the liquid medicine bottle in a penetrating way; one side of the atomization bin is provided with a penetration slot; a sealing floating ring is arranged on the cross-connection slot; the upper end of the upper floating pipe is connected to the sealing floating ring in a sealing and penetrating way and extends to the inside of the atomization bin; the upper end of the upper floating pipe is positioned at one side below the rotating shaft; the upper floating pipe is arranged above the lower end positioning pipe in a floating manner up and down; the reflux port adjusting mechanism further comprises a guide rod, a guide cylinder, a threaded sleeve and a driving screw; the upper ends of two sides of the lower end positioning tube are respectively provided with a driving screw and a guide cylinder; the driving screw is rotationally clamped at one side of the lower end positioning tube; the lower ends of two sides of the upper floating pipe are respectively provided with a thread bush and a guide rod; the guide rod is inserted into the guide cylinder; the driving screw is screwed in the thread sleeve; the driving screw rod rotates to drive the upper floating pipe to move up and down.

2. The aerosol inhalation device according to claim 1, wherein one side of the lower end positioning tube is provided with a positioning plate; the driving screw is rotationally clamped on the positioning plate.

3. The aerosol inhalation device according to claim 1, wherein the sealing float ring is made of a rubber material; the telescopic floating tube is made of corrugated tube materials.

4. The aerosol inhalation device according to claim 1, wherein a positioning block is respectively provided in front of and behind the interior of the aerosol bin; the inner side of the positioning block is provided with a rotary clamping groove; two ends of the rotating shaft are respectively provided with a rotary clamping tooth; the rotating shaft is rotationally clamped on the rotating clamping groove at the inner side of the positioning block through rotating clamping teeth at two ends.

5. The aerosol inhalation device according to claim 1, wherein the bottom of the aerosol bin is provided with a support column; the lower extreme fixed mounting of support column is in the upper end of base.

6. The aerosol inhalation device according to claim 1, wherein the outer end of the drive plate is located inwardly of the outer end of the flip-holder.

7. The aerosol inhalation device according to claim 1, wherein a liquid filling tube is provided on one side of the upper end of the liquid medicine bottle.

8. The aerosol inhalation device according to claim 1, wherein the upper end of the aerosol bin is provided with an aerosol tube.