CN215690688U

CN215690688U - Atomizing inhalation device

Info

Publication number: CN215690688U
Application number: CN202121759225.7U
Authority: CN
Inventors: 程玲
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2022-02-01
Anticipated expiration: 2031-07-30

Abstract

The utility model discloses an atomization inhalation device, which comprises a shell and a water inlet pipe, and comprises an inhalation mask and a binding band, wherein the outer surface of the inhalation mask is provided with an air outlet, and the front surface of the inhalation mask is provided with a connecting pipe; the bottom of the connecting pipe is provided with a T-shaped pipe, one end of the T-shaped pipe is provided with an atomizing inhaler, and the bottom of the atomizing inhaler is provided with a positive pressure joint. The positive pressure joint is arranged on the atomization inhaler, when a patient needs medicament atomization treatment, the medicament can be injected into the atomization inhaler through the positive pressure joint, and when the patient needs to moisten the trachea, the positive pressure joint can be connected with the external injector, so that the normal saline in the external injector is atomized, the cut trachea of the patient is moistened, and the application range of the device is widened.

Description

Atomizing inhalation device

Technical Field

The utility model relates to the technical field of an atomization inhalation device, in particular to an atomization inhalation device.

Background

With the continuous development of modern society and the continuous improvement of economic level, the modern medical industry has also been vigorously developed, and as a modern common medical appliance for treating respiratory diseases, the atomizer has the main function of utilizing high-speed oxygen airflow to form liquid medicine into mist, so that the liquid medicine can enter the body of a patient through the respiratory tract of the patient, and the effects of treating respiratory infection of the patient, eliminating inflammation and edema, relieving spasm, thinning sputum and the like are achieved.

The prior art aerosol inhalation devices suffer from the following drawbacks:

1. the utility model discloses an atomization inhalation device, which comprises a liquid storage tank, a mist outlet pipeline and a heating gasification module, wherein the mist outlet end of the mist outlet pipeline is positioned outside the liquid storage tank, the mist inlet end of the mist outlet pipeline extends into the liquid storage tank and is sealed and isolated from the liquid storage tank through a sealing ring, a water seepage port is arranged on the sealing ring, a micro seepage channel is arranged on the heating gasification module and is communicated with the water seepage port of the sealing ring, liquid in the liquid storage tank can enter the micro seepage channel from the water seepage port, the heating gasification module heats the liquid in the micro seepage channel, the liquid in the micro seepage channel is gasified and then is discharged from the mist inlet end of the mist outlet pipeline to the mist outlet end, so that the problem that the heating mode of the existing atomization inhalation device has defects is solved, and the atomization inhalation device is lack of injector connecting parts, so that the device can not carry out trachea moistening treatment on the patient with the cut trachea, thereby influencing the application range of the device.

2. The existing atomization inhalation device is lack of a bandage tightening part, so that the device is fixed on the head of a patient, the device cannot be tightly fixed on the mouth and the nose of the patient due to the overlong bandage, and the using effect of the device is influenced.

3. The existing atomization inhalation device adopts a manual knotting mode to fix the bandage of the device, so that the bandage is unstable to fix, and the using effect of the device is influenced by the sliding condition of the device.

4. The existing atomization inhalation device is lack of a condensed water protection component, so that in the use process of the device, condensed water drops generated by breathing of a patient often enter a breathing machine, and adverse effects are generated on the breathing machine.

SUMMERY OF THE UTILITY MODEL

The present invention aims to provide an aerosol inhalation device which solves the problems set forth in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: an atomization inhalation device comprises an inhalation mask and a binding band, wherein an air outlet hole is arranged on the outer surface of the inhalation mask, and a connecting pipe is arranged on the front surface of the inhalation mask; the bottom of the connecting pipe is provided with a T-shaped pipe, one end of the T-shaped pipe is provided with an atomizing inhaler, and the bottom of the atomizing inhaler is provided with a positive pressure joint.

Preferably, the outer surfaces of both sides of the inhalation mask are respectively provided with a receiving shell, and the receiving bobbin is arranged in the receiving shell through a bearing.

Preferably, the outer surface of the accommodating spool is wound with a binding band, the outer surface of the accommodating spool is connected with a torsion spring, and the top end of the torsion spring is connected to the top of the accommodating shell through a fixing bolt.

Preferably, the tail end of one group of the binding bands is provided with an embedded block, two groups of extrusion rods are connected in the embedded block in a penetrating manner, the outer surface of each extrusion rod is provided with a sliding block, two groups of sliding rails are arranged in the inner wall of the embedded block, and the sliding rails are connected with the sliding blocks in an embedded manner.

Preferably, a return spring is mounted inside the inner wall of the fitting block, the tail end of the return spring extends to the outer surface of the slider, and a fitting groove is formed inside the fitting block.

Preferably, the tail ends of the other group of the binding bands are provided with embedding heads through fixing bolts, the embedding heads are connected in an embedding mode through embedding blocks, and the inner sides of the embedding heads are provided with spring telescopic rods.

Preferably, a valve is arranged inside the T-shaped pipe.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the positive pressure connector is arranged, when a patient needs medicament atomization treatment, the medicament can be injected into the atomization inhaler through the positive pressure connector, and when the patient needs to moisten the trachea, the patient can be connected with the external injector through the positive pressure connector, so that the physiological saline in the external injector is atomized, the cut trachea of the patient is moistened, and the application range of the device is widened.

2. According to the utility model, the storage spool and the torsion spring are arranged, when the binding band extends outwards under the action of external force, the storage spool rotates, the torsion spring shifts to convert the external force into elastic potential energy, and when the external force disappears, the torsion spring converts the elastic potential energy into kinetic energy to drive the storage spool to rotate, so that tension is generated on the binding band, the binding band is tightly attached to the brain of a patient, and the use effect of the device is improved.

3. The utility model is provided with the extrusion rod, the reset spring, the embedded groove embedded head and the spring telescopic rod, when the device needs to be fixed, the extrusion rod is pulled by external force to enable the extrusion rod to contract, when the extrusion rod is pulled by the external force, the reset spring converts the external force into elastic potential energy, then the embedded head is pressed by the external force, the embedded head deforms at the moment, the embedded head is inserted into the embedded groove by the external force, when the embedded head is extruded by external force to deform, the spring telescopic rod converts the external force into elastic potential energy, when the external force disappears, the spring inside the spring telescopic rod converts the elastic potential energy into kinetic energy to restore the embedding head to the original state, when the external force acting on the extrusion rod disappears, the reset spring converts the elastic potential energy into kinetic energy to drive the extrusion rod to reset and fix the embedded head, so that the device is fixed, and the using effect of the device is more stably improved.

4. The valve is arranged, the valve is made of two groups of rubber materials, the valve has good ductility, gas can only pass through the valve in a single direction, when atomized medicine or a respirator enters the inside of the T-shaped pipe under the action of external force, the valve enables the gas and the atomized medicine to enter the inside of the connecting pipe through the T-shaped pipe, and when a patient exhales, the valve prevents waste gas and condensed water drops generated by the patient exhaling from entering the inside of the respirator or the atomized inhalator, so that the service life of the device is prolonged.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the bottom portion of the aerosol inhaler of the present invention;

FIG. 3 is a schematic view of a structure of a fitting portion according to the present invention;

FIG. 4 is a front sectional view of a portion of the storage case of the present invention;

FIG. 5 is a front sectional view of a part of the structure of the fitting block of the present invention;

FIG. 6 is a cross-sectional partial structural view of a T-shaped pipe of the present invention.

In the figure: 1. an inhalation mask; 2. an air outlet; 3. a connecting pipe; 4. a T-shaped pipe; 5. an aerosol inhaler; 6. a positive pressure joint; 7. a housing case; 8. a take-in spool; 9. binding bands; 10. a torsion spring; 11. a fitting block; 12. an extrusion stem; 13. a slider; 14. a slide rail; 15. a return spring; 16. a fitting groove; 17. a fitting head; 18. a spring telescopic rod; 19. and (4) a valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the utility model provides an atomizing inhalation device, including inhalation mask 1 and venthole 2, inhalation mask 1's surface mounting has venthole 2, inhalation mask 1 is its surface mounting's venthole 2, connecting pipe 3 and storage shell 7 provide the fixed point, simultaneously before the use device, fix inhalation mask 1 in patient's oronasal department, make and get into the inside gas of inhalation mask 1 and the atomizing medicament can be under the effect that the patient breathes via connecting pipe 3, get into inside the patient respiratory track, venthole 2 is the gas of patient's exhalation, provide the discharge space, connecting pipe 3 is installed in inhalation mask 1's front, the one end of connecting T type pipe 4 makes inside air and the atomizing medicament of T type pipe 4, can get into the inside of inhalation mask 1 via connecting pipe 3.

As shown in fig. 1, fig. 2 and fig. 5, an aerosol inhalation device comprises a connecting pipe 3 and a T-shaped pipe 4, the T-shaped pipe 4 is installed at the bottom of the connecting pipe 3 and is respectively connected with the connecting pipe 3 and an aerosol inhaler 5, when a patient does not need to inhale, the bottom end of the T-shaped pipe 4 can be connected with an external respirator, at this time, the T-shaped pipe 4 is driven by the action force of a respirator to discharge gas to the inside of the connecting pipe 3 to assist the patient to breathe, when the patient needs to inhale, the aerosol inhaler 5 connected at one end thereof is connected with an external oxygen delivery device under the pressure action of the external oxygen delivery device to discharge an aerosol medicament to the inside of the connecting pipe 3 to assist the patient to treat, the aerosol inhaler 5 is installed at one end of the T-shaped pipe 4, when the patient needs medicament aerosol treatment, the external oxygen delivery device is connected with the aerosol inhaler 5, when the medicament is injected into the aerosol inhaler 5 through a

positive pressure joint

6, 5 messenger's medicine atomizing of inhalator, positive pressure joint 6 is installed to the bottom of inhalator 5, when the patient needs carry out medicine fog inhalation, can connect 6 inside with the medicine injection inhalator 5 of medicine injection via positive pressure, when the patient needs moist trachea, can be connected with external syringe via positive pressure joint 6 to make the inside saline atomization of external syringe, wet the trachea that has cut the patient, and then hoisting device application scope.

As shown in fig. 1 and 4, an aerosol inhalation device comprises a inhalation mask 1 and a housing case 7, wherein the housing case 7 is mounted on the outer surfaces of both sides of the inhalation mask 1, a fixing point is provided for a housing spool 8 mounted inside the inhalation mask, the housing spool 8 is mounted inside the housing case 7 through a bearing, a housing point is provided for a binding band 9 wound on the outer surface of the housing case, a fixing point is provided for one end of a torsion spring 10 mounted on the outer surface of the housing case, the binding band 9 is wound on the outer surface of the housing spool 8, when the device needs to be fixed, the binding band 9 can be pulled by external force, the binding band 9 extends outwards under the action of external force, the outer surface of the housing spool 8 is connected with the torsion spring 10, the top end of the torsion spring 10 is connected to the top of the housing case 7 through a fixing bolt, when the binding band 9 extends outwards under the action of external force, the housing spool 8 rotates, the torsion spring 10 shifts position and converts the external force into elastic potential energy, when external force disappears, torsional spring 10 turns into kinetic energy with elastic potential energy, drives and accomodates spool 8 gyration to produce pulling force to bandage 9, make bandage 9 and patient's brain closely laminate, improve device result of use.

As shown in fig. 1, 3 and 5, an aerosol inhalation device comprises a binding band 9 and an embedding head 17, wherein an embedding block 11 is arranged at the tail end of a group of binding band 9, the embedding block 11 provides a fixing point for an extrusion rod 12, a sliding block 13, a sliding rail 14, a return spring 15 and an embedding groove 16 which are arranged in the embedding block, two groups of extrusion rods 12 are connected in the embedding block 11 in a penetrating way, when the binding band 9 needs to be fixed, the extrusion rod 12 is pulled by external force to shrink the extrusion rod 12, so that the embedding head 17 can conveniently enter, a sliding block 13 is arranged on the outer surface of the extrusion rod 12, the sliding block 13 is fixed on the outer surface of the extrusion rod 12 and is in sliding connection with the sliding rail 14, the extrusion rod 12 is prevented from deflecting when being pulled, two groups of sliding rails 14 are arranged in the inner wall of the embedding block 11, the sliding rails 14 are embedded and connected with the sliding block 13, and a movable space is provided for the movement of the sliding block 13 when a user pulls the extrusion rod 12 by external force, a reset spring 15 is arranged in the inner wall of the embedding block 11, the tail end of the reset spring 15 extends to the outer surface of the sliding block 13, when the extrusion rod 12 is pulled by an external force, the reset spring 15 converts the external force into elastic potential energy, when the external force applied to the extrusion rod 12 disappears, the reset spring 15 converts the elastic potential energy into kinetic energy to drive the extrusion rod 12 to reset and fix the embedding head 17, the embedding block 11 is internally provided with an embedding groove 16 to provide a space for the embedding head 17 to be inserted into the embedding block 11, the tail end of the other group of binding bands 9 is provided with the embedding head 17 through a fixing bolt, the embedding head 17 is embedded and connected with the embedding block 11, after the extrusion rod 12 is pulled, the embedding head 17 is pressed by the external force, the embedding head 17 is deformed, the embedding head 17 is inserted into the embedding groove 16 by the external force, the inner side of the embedding head 17 is provided with a spring telescopic rod 18, when the embedding head 17 is extruded and deformed by the external force, the spring telescopic rod 18 converts external force into elastic potential energy, and when the external force disappears, the spring inside the spring telescopic rod 18 converts the elastic potential energy into kinetic energy, so that the embedding head 17 is restored to the original state.

As shown in fig. 6, an aerosol inhalation device comprises a T-shaped tube 4 and a valve 19, wherein the valve 19 is installed inside the T-shaped tube 4, the valve 19 is made of two sets of rubber materials and has good ductility, and the valve 19 can only allow gas to pass through in one direction, when an aerosol or a respirator enters the inside of the T-shaped tube 4 under the action of external force, the valve 19 allows the gas and the aerosol to enter the inside of the connecting tube 3 through the T-shaped tube 4, and when a patient exhales, the valve 19 prevents waste gas and condensed water beads generated by the patient exhalation from entering the inside of the respirator or the aerosol inhaler 5, so that the service life of the device is prolonged.

The working principle is as follows: firstly fixing the inhalation mask 1 at the mouth and nose of a patient, then pulling the extrusion rod 12 by external force to enable the extrusion rod 12 to contract, when the extrusion rod 12 is pulled by the external force, the reset spring 15 converts the external force into elastic potential energy, then pressing the embedded head 17 by the external force, at the moment, the embedded head 17 deforms, the embedded head 17 is inserted into the embedded groove 16 by the external force, when the embedded head 17 deforms by the external force, the spring telescopic rod 18 converts the external force into the elastic potential energy, when the external force disappears, the spring in the spring telescopic rod 18 converts the elastic potential energy into kinetic energy to enable the embedded head 17 to recover to the original state, when the external force acting on the extrusion rod 12 disappears, the reset spring 15 converts the elastic potential energy into the kinetic energy to drive the extrusion rod 12 to reset to fix the embedded head 17, and meanwhile, when the bandage 9 extends outwards under the action of the external force, the accommodating spool 8 rotates, at the moment, the torsion spring 10 generates position deviation to convert external force into elastic potential energy, when the external force disappears, the torsion spring 10 converts the elastic potential energy into kinetic energy to drive the accommodating spool 8 to rotate, thereby generating pulling force on the bandage 9, leading the bandage 9 to be tightly attached to the brain of a patient, improving the using effect of the device, when the device is fixed and the patient needs medicament atomization treatment, the medicament can be injected into the inner part of the atomization inhaler 5 through the positive pressure joint 6, when the patient needs to moisten the trachea, the device can be connected with an external injector through the positive pressure joint 6, leading the physiological saline in the external injector to be atomized, moistening the cut trachea of the patient, when the patient does not need to inhale the medicament, the bottom end of the T-shaped tube 4 can be connected with the external respirator, at the moment, the T-shaped tube 4 is driven by the action force of the respirator to discharge gas to the inner part of the connecting tube 3 to assist the patient to breathe, when a patient needs to take medicine, the atomized medicine is discharged to the inside of the connecting pipe 3 to assist the patient to treat under the pressure action of the atomized inhalator 5 connected with one end of the patient and the external oxygen conveying device, the air and the atomized medicine inside the T-shaped pipe 4 can enter the inside of the inhalation mask 1 through the connecting pipe 3 when the connecting pipe 3 is connected with one end of the T-shaped pipe 4, and the air and the atomized medicine entering the inside of the inhalation mask 1 through the connecting pipe 3 can enter the respiratory tract of the patient under the breathing action of the patient through the inhalation mask 1.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. An aerosol inhalation device comprising a face mask (1) and a strap (9), characterized in that: the outer surface of the inhalation mask (1) is provided with an air outlet (2), and the front surface of the inhalation mask (1) is provided with a connecting pipe (3); t-shaped pipe (4) is installed at the bottom of connecting pipe (3), atomizing inhaler (5) is installed at one end of T-shaped pipe (4), and positive pressure joint (6) is installed at the bottom of atomizing inhaler (5).

2. The aerosol inhalation device of claim 1, wherein: the outer surfaces of two sides of the inhalation mask (1) are respectively provided with a containing shell (7), and a containing spool (8) is arranged in the containing shell (7) through a bearing.

3. An aerosol inhalation device according to claim 2, wherein: the outer surface of the storage spool (8) is wound with a binding band (9), the outer surface of the storage spool (8) is connected with a torsion spring (10), and the top end of the torsion spring (10) is connected to the top of the storage shell (7) through a fixing bolt.

4. An aerosol inhalation device according to claim 3, wherein: the tail end of one group of the binding bands (9) is provided with an embedded block (11), two groups of extrusion rods (12) are connected inside the embedded block (11) in a penetrating mode, the outer surface of each extrusion rod (12) is provided with a sliding block (13), two groups of sliding rails (14) are arranged inside the inner wall of the embedded block (11), and the sliding rails (14) are connected with the sliding blocks (13) in an embedded mode.

5. The aerosol inhalation device of claim 4, wherein: a return spring (15) is mounted inside the inner wall of the embedding block (11), the tail end of the return spring (15) extends to the outer surface of the sliding block (13), and an embedding groove (16) is formed inside the embedding block (11).

6. An aerosol inhalation device according to claim 3, wherein: the tail end of the other group of the binding bands (9) is provided with an embedding head (17) through a fixing bolt, the embedding heads (17) are connected in an embedding mode through embedding blocks (11), and the inner side of each embedding head (17) is provided with a spring telescopic rod (18).

7. The aerosol inhalation device of claim 1, wherein: a valve (19) is arranged in the T-shaped pipe (4).