CN215135036U - Department of neurology aerosol inhalation machine - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, in particular to an atomization inhalation machine for neurology, which at least comprises an atomization inhalation machine body and an atomization nozzle cover arranged on the atomization inhalation machine body, wherein the atomization nozzle cover is connected with the atomization inhalation machine body through an atomization drainage tube, a liquid medicine cavity is arranged in the atomization inhalation machine body, and the bottom of the liquid medicine cavity is provided with an inclined plate; one end of the inclined plate is connected with the side wall of the liquid medicine cavity in an integrated mode, the other end of the inclined plate is in contact with the atomizing device, and an included angle with an angle of 45-90 degrees is formed between the other side wall, which is deviated from the inclined plate and connected with the liquid medicine cavity, and the inclined plate. The aerosol inhalation machine has the advantages of simple structure, convenient storage, capability of preventing crush injury and being suitable for different patients, and great saving of liquid medicine.

Description

Department of neurology aerosol inhalation machine

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a department of neurology aerosol inhalation machine.

Background

The aerosol inhalation machine is mainly used for treating various respiratory system diseases, such as common cold, fever, cough, asthma, sore throat, pharyngitis, rhinitis, bronchitis, pneumoconiosis and other diseases in trachea, bronchus, alveolus and thoracic cavity. The aerosol inhalation therapy is an important therapy method in the respiratory system disease therapy, the liquid medicine is atomized into tiny particles by adopting an aerosol inhalation machine, and the medicine enters the respiratory tract and the lung for deposition in a respiratory inhalation mode, thereby achieving the aim of painless, rapid and effective therapy.

With the development of science and technology and the continuous improvement of medical level, various atomizing inhalation machines appear on the market. For example, chinese patent (No. CN206950429U) discloses a multifunctional atomization inhalation machine for neurology, which comprises a base plate, a fixed sleeve, a timer, a lifting plate, a supporting plate, a fixed base, a fixed shaft, a connecting plate, a screw rod, a rotating rod, a first clamping groove, a sliding sleeve, a housing, a nozzle, a medicine storage tank, a protective housing, an atomizer, a guide tube, a connector and a connecting hose. CN212139474U provides a gauze mask and gauze mask suit, relates to health supplies technical field. The mask comprises a mask and hangers arranged in pairs; the hanging lugs are respectively arranged on two sides of the mask, the mask comprises a waterproof layer arranged on one side of the mask, which is far away from the human body, and the waterproof layer is made of waterproof fabric; the mask also comprises a crease part, and the length of the crease part extends from one of the hanging lugs to the other hanging lug; the positions of the two sides of the face mask, which are close to the hangers, are respectively provided with a plurality of air holes which are arranged at intervals, the air holes are arranged on the inner side of the crease part, and the air holes penetrate through the waterproof layer and can communicate the inner side and the outer side of the face mask. CN213589448U discloses a pressure mask, including the face guard main part, face guard main part both sides are connected with the ear sling, and the inboard in ear sling is equipped with gentle pad, installs the air vent in the face guard main part, is equipped with the check valve that one-way business turn over was given vent to anger in the air vent, and face guard main part top is equipped with nose cover body, and the opening of face guard main part is equipped with the round and prevents pressing the sore gasbag, prevents pressing the sore gasbag and keeps away from one side of face guard main part and be equipped with medical pressure protection layer, the utility model discloses the beneficial effect who reaches is: 1. the pressure sore prevention air bag is attached to the face, and the medical pressure prevention layer can resist pollution and chemical stimulation and prevent skin ulceration from causing infection; 2. the cotton gauze layer can absorb the bottom liquid generated by water vapor in the mask main body, so that the chin is prevented from being soaked in the accumulated liquid for a long time, and the skin is prevented from being secondarily damaged; 3. the inner side of the ear hanging belt is provided with a soft cushion, the design of the soft cushion reduces the pressure of the ear hanging belt to the back of the ear, and the pressure sore to the back of the ear is reduced.

However, the multi-functional aerosol inhalation machine of department of neurology that this patent discloses, it prevents pressing the function in order to realize the face, multiple fixed, the structure complicated with the lift has been adopted, make this multi-functional aerosol inhalation machine of department of neurology structure very complicated, and can not accomodate, occupation space area is big, more importantly, in atomization process, the liquid medicine of this aerosol inhalation machine medicine storage tank bottom can't enter into the atomizer to the greatest extent, thereby absorbed by the patient, very big waste that has caused the liquid medicine.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor studied a lot of documents and patents when making the present invention, but the space did not list all details and contents in detail, however, this by no means the contents of the present invention does not possess these prior art features, but on the contrary the present invention has possessed all features of the prior art, and the applicant reserves the right to increase the related prior art in the background.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a neurology department aerosol inhalation machine, which at least comprises an aerosol inhalation machine body and an aerosol nozzle cover arranged on the aerosol inhalation machine body, wherein the aerosol nozzle cover is connected with the aerosol inhalation machine body through an aerosol drainage tube, a liquid medicine cavity is arranged in the aerosol inhalation machine body, and the bottom of the liquid medicine cavity is provided with an inclined plate; one end of the inclined plate is connected with the side wall of the liquid medicine cavity in an integrated mode, the other end of the inclined plate is in contact with the atomizing device, and an included angle with an angle of 45-90 degrees is formed between the other side wall, which is deviated from the inclined plate and connected with the liquid medicine cavity, and the inclined plate.

According to a preferred embodiment, the atomizing nozzle hood comprises at least an airbag layer and a protective layer, wherein the protective layer consists of a sponge layer and a gauze layer, wherein the airbag layer is adhesively arranged around the opening of the atomizing nozzle hood and is in contact with the face of the patient, the gauze layer is wrapped and adhesively arranged on the outside of the sponge layer, and one side of the gauze layer is adhesively connected to the atomizing nozzle hood and the other side of the gauze layer is adhesively connected to the airbag layer.

According to a preferred embodiment, the atomizing nozzle cover is provided with a head fixing band, the head fixing band at least comprises a first fixing band, an elastic connecting band and a second fixing band, wherein the first fixing band passes through the elastic connecting band and the second fixing band.

According to a preferred embodiment, one side of the atomizing nozzle cover close to the patient is provided with an atomizing nozzle, the atomizing nozzle is connected with the atomizing drainage tube in a clamping manner through a second connector, and a sealing ring is arranged around the second connector; and the atomization drainage tube is connected with the atomization connecting cavity in a clamping manner through a first connector.

According to a preferred embodiment, an atomizing cavity is arranged in the atomizing inhalation machine body, the atomizing cavity is fixedly connected to the outer side wall of the liquid medicine cavity in a threaded manner, and the atomizing cavity is communicated with the liquid medicine cavity through the atomizing device.

According to a preferred embodiment, the top of the atomization cavity is provided with an atomization connection cavity, and the atomization connection cavity is connected with the atomization cavity in an integrated manner.

According to a preferred embodiment, a bottom plate is arranged at the bottom of the atomizing inhalation machine body, and the liquid medicine cavity and the atomizing cavity are fixedly connected with the bottom plate in a threaded manner.

According to a preferred embodiment, the outer side wall of the aerosol inhalation machine body is provided with a storage box body for storing the aerosol drainage tube and the aerosol nozzle cover, the storage box body is of a hollow structure with an opening at the top, and the storage box body is connected with the aerosol inhalation machine body in a threaded manner.

According to a preferred embodiment, the top of the liquid medicine cavity is provided with a liquid medicine cavity opening and a liquid medicine cavity cover, the size of the liquid medicine cavity cover is matched with that of the liquid medicine cavity opening, the top of the liquid medicine cavity cover is provided with a hand grip, and the hand grip is connected with the liquid medicine cavity cover in an integrated manner.

According to a preferred embodiment, a battery for supplying power to the atomizing device is further arranged in the atomizing inhalation machine body, and the battery is electrically connected with the atomizing device; the battery is fixed on the top of the bottom plate in a bolt mode, a base is arranged at the bottom of the bottom plate, and the base and the bottom plate are connected in an integrated mode.

The utility model provides a department of neurology aerosol inhalation machine's beneficial technological effect is one or more of following:

firstly, the bottom of the liquid medicine cavity is set to be the inclined plate, so that liquid medicine can flow into the atomization device through the inclined plate, and waste of the liquid medicine is greatly avoided;

secondly, the pressure-proof atomizing nozzle cover is arranged, so that the face of a patient can be prevented from being pressed and damaged by the atomizing nozzle cover, and the pain of the patient in the atomizing process is relieved;

the third accomodates the box through setting up, not only can use atomizing drainage tube and atomizing nozzle cover and finish the back and neatly place, can also prevent to damage atomizing drainage tube.

Drawings

Fig. 1 is a schematic structural diagram of a neurological atomization inhalation machine provided by the present invention;

FIG. 2 is a schematic view of the external appearance structure of the nozzle cover of the neurological atomization inhalation machine provided by the present invention;

FIG. 3 is a schematic view of the position structures of the sponge layer and the gauze layer of the neurological atomization inhalation machine provided by the present invention; and

fig. 4 is a schematic view of the internal structure of the nozzle cover of the neurological atomization inhalation machine provided by the utility model.

Reference numerals in the specification

100: aerosol inhaler body 110: liquid medicine chamber 111: liquid medicine cavity cover

112: liquid medicine cavity port 113: the inclined plate 120: atomizing cavity

121: the atomizing device 130: the battery 140: storage box body

141: an atomizing drainage tube 150: atomizing connecting cavity 151: first joint

160: bottom plate 161: a base 170: atomizing nozzle cover

171: gauze layer 172: sponge layer 173: air bag layer

174: second joint 175: sealing ring 176: atomizing spray head

180: head fixing band 181: first fixing strap 182: elastic connecting belt

183: the second fixing band 190: protective layer

Detailed Description

The present invention provides a neurological atomizing inhaler, which will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-4, a neurological aerosol inhalation machine at least comprises an aerosol inhalation machine body 100 and an aerosol nozzle cover 170 arranged on the aerosol inhalation machine body 100. Wherein, the atomizing nozzle cover 170 is connected with the atomizing inhaler body 100 through the atomizing drainage tube 141. The aerosol inhalation machine body 100 is provided with a liquid medicine cavity 110, and the bottom of the liquid medicine cavity 110 is provided with a sloping plate 113. One end of the inclined plate 113 is integrally connected with the side wall of the liquid medicine cavity 110, the other end of the inclined plate 113 is in contact with the atomizing device 121, and the other side wall which is away from the inclined plate 113 and connected with the liquid medicine cavity 110 forms an included angle of 45-90 degrees with the inclined plate 113.

Specifically, one end of the inclined plate 113 is connected to the inside of the right side wall of the medical fluid chamber 110, and the other end of the inclined plate 113 is connected to the inside of the left side wall of the medical fluid chamber 110. The right side wall refers to the side of the liquid medicine chamber 110 far away from the atomizing chamber 120, and the left side wall refers to the side of the liquid medicine chamber 110 near to the atomizing chamber 120.

Preferably, the angle formed by the inclined plate 113 and the medical fluid chamber 110 is 74 degrees. Specifically, when the chemical liquid is injected into the chemical liquid chamber 110, the chemical liquid first enters the chemical liquid chamber 110 through the chemical liquid port 112. Then, the chemical liquid introduced into the chemical liquid chamber 110 drops on the inclined plate 113 by gravity. Then, the liquid medicine dropped on the inclined plate 113 slides down along the inclined plate 113 from top to bottom at the corner formed by the inclined plate 113 and the liquid medicine chamber 110. And finally, the liquid medicine at the corner can flow into the atomizing device for atomization.

According to a preferred embodiment, the atomizing nozzle hood 170 comprises at least an airbag layer 173 and a protective layer 190, wherein the protective layer 190 comprises a sponge layer 172 and a gauze layer 171. Wherein the air bag layer 173 is adhesively attached around the opening of the atomizing nozzle cover 170 and contacts the patient's face. A gauze layer 171 is disposed and wrapped around the outer side of the sponge layer 172 in an adhesive manner, and one side of the gauze layer 171 is connected to the atomizing nozzle cover 170, and the other side of the gauze layer 171 is connected to the airbag layer 173 in an adhesive manner.

As shown in fig. 3, a circle of air bag layer 173 is disposed at the opening of the atomizing nozzle cover 170, a circle of protective layer is disposed on the side of the air bag layer 173 close to the patient's face, and the protective layer 190 is composed of a gauze layer 171 and a sponge layer 172. Wherein, sponge layer 172 is wrapped inside gauze layer 171 by gauze layer 171.

Preferably, the sponge layer 172 may be made of at least one of foamed cotton, set cotton, rubber cotton, and memory cotton. Gauze layer 171 may be composed of medical gauze or cotton gauze. The air bag in the air bag layer 173 may be a medical silicone inflatable gasket air bag.

Specifically, the sponge layer 172 is composed of a memory sponge because the memory sponge has air permeability and moisture absorption, and the memory sponge has shock-absorbing, pressure-reducing, low-resilience effects. The gauze layer 171 is composed of pure cotton gauze because pure cotton gauze has not only good air permeability and water absorption but also no pollution to the skin and good skin contact feeling. The air bag layer 173 has a smooth surface and a soft texture, and has an air filling hole in a side surface, so that it is in a flat state when no air enters. When the inflatable air bag is inflated, the air bag can be gradually expanded along with the entering of air until the original flat air bag becomes fuller, so that the contact area between the air bag and other objects is increased, and the effects of pressure prevention and pressure resistance are further achieved.

Preferably, the atomizing nozzle cover 170 is further provided with air holes. The air holes are formed by a plurality of round small holes arranged on the atomizing nozzle cover 170, and the diameter range of each round small hole is 0.2-0.8 mm.

Specifically, the bleeder vent is arranged at a position close to the nostril of the patient, the diameter of the bleeder vent is set at 0.2-0.8mm, which has two reasons: firstly, the patient needs to be ensured to have good air permeability when using the mask; and secondly, the diameter of the small air holes cannot be too large, so that the mist can not escape from the small holes, and the atomization effect is further influenced.

Preferably, the atomizing nozzle cover 170 can also be composed of a gauze layer, a silica gel foam layer, a plastic layer and a water-resisting layer, specifically, the atomizing nozzle cover 170 is sequentially provided with the gauze layer, the silica gel foam layer and a waterproof layer from inside to outside, and the gauze layer and the silica gel foam layer waterproof layer are all formed by bonding through glue layers.

Specifically, when the patient is treated by atomization, the gauze layer is in contact with the skin of the patient, because the gauze has the characteristics of sweat absorption, air permeability, softness and sensitivity prevention, and has good skin-friendly feeling when in contact with the skin. Silica gel foam layer sets up in the outside of gauze layer, this because silica gel foam has the characteristic of buffering external pressure oppression, especially can reduce external impact in the atress department, and silica gel foam can prevent to press the sore. The waterproof layer can prevent that atomizing in-process fog liquefaction back, liquid from gluing on gauze layer and silica gel foam layer, influencing the use of atomizing nozzle cover.

According to a preferred embodiment, the atomizing nozzle cover 170 is provided with a head fixing strap 180, the head fixing strap 180 at least comprises a first fixing strap 181, an elastic connecting strap 182 and a second fixing strap 183, wherein the first fixing strap 181 passes through the elastic connecting strap 182 and the second fixing strap 183.

Preferably, a first fixing portion may be connected to an end of the first fixing strap 181 away from the elastic connecting strap 182. The medial surface of first fixed part can be provided with at least one magic subsides box. One end of the second fixing strap 183, which is far away from the elastic connection strap 182, may be connected to a second fixing portion, and the outer side surface of the second fixing portion may be provided with at least one hook-and-loop fastener. When the head fixing band 180 is looped around the head of the wearer in a ring shape, the head fixing band 180 may be wrapped around the head of the wearer based on the stretching of the elastic connection band 182 and the matching of the female hook and loop fasteners. The head fixing belt 180 can be fixed on the head of a wearer, the most comfortable length of the wearer is achieved, and the use requirements of different wearers are met.

According to a preferred embodiment, the side of the atomizer nozzle housing 170 adjacent to the patient is provided with an atomizer head 176. The atomizing nozzle 176 is connected with the atomizing drain 141 in a snap-fit manner through the second connector 174. A sealing ring 175 is disposed around the second connector 174, and the atomization drainage tube 141 is connected with the atomization connecting cavity 150 through the first connector 151 in a snap-fit manner.

Preferably, the sealing ring 175 may be a sealing rubber ring. Specifically, by providing the sealing rubber ring at the position of the second joint 174, the mist entering the atomizing nozzle 176 from the atomizing drainage tube 141 can be prevented from leaking, thereby affecting the air tightness of the atomizing nozzle 176.

According to a preferred embodiment, an atomizing chamber 120 is disposed in the aerosol inhalation machine body 100, the atomizing chamber 120 is fixedly connected to an outer sidewall of the liquid medicine chamber 110 in a threaded manner, and the atomizing chamber 120 is communicated with the liquid medicine chamber 110 through an atomizing device 121.

In particular, the atomizer 121 is further provided with a corresponding switch, which is electrically connected to the battery.

According to a preferred embodiment, the atomizing connection cavity 150 is provided at the top of the atomizing chamber 120. The atomization connecting cavity 150 is integrally connected with the atomization cavity 120.

Preferably, the atomizing connecting chamber 150 has a cylindrical hollow structure with openings at the upper and lower sides. Specifically, first, after the liquid medicine is atomized by the atomization device 121, the mist enters the atomization connection chamber 150 through the lower end of the atomization connection chamber 150. Then, the mist rises from the lower end of the atomizing connecting chamber 150 to the upper end of the atomizing connecting chamber 150. Finally, the mist exits from the atomizing connecting cavity 150 and enters the atomizing drainage tube 141 through the first joint 151. Here, the upper end refers to an end of the atomization connecting cavity 150 away from the atomization cavity 120, and the lower end refers to an end of the atomization connecting cavity 150 close to the atomization cavity 120.

According to a preferred embodiment, the bottom of the aerosol inhalation device body 100 is provided with a bottom plate 160, and the liquid medicine chamber 110 and the aerosol chamber 120 are fixedly connected with the bottom plate 160 in a threaded manner.

Preferably, an adsorption plate is further disposed on the bottom plate 160 to prevent the patient from pulling the nebulizing drainage tube 141 to drive the nebulizing inhaler body 100 to move together. If the aerosol inhalation machine body 100 is placed at a high place, when a patient pulls the aerosol drainage tube 141, the aerosol inhalation machine body 100 is easy to drop from the high place and is damaged, so that the service life of the aerosol inhalation machine body 100 is shortened, and the problem can be well avoided by arranging the adsorption disc.

Specifically, the suction cups may be made of rubber material, and the suction cups are at least four and are distributed at the lower end of the atomizer base plate 160 in a square shape.

According to a preferred embodiment, the outer side wall of the aerosol inhalation machine body 100 is provided with a storage box 140 for storing the aerosol draft tube 141 and the atomizing nozzle cover 170, the storage box 140 is a hollow structure provided with an opening at the top, and the storage box 140 is connected with the aerosol inhalation machine body 100 in a threaded manner.

Preferably, the storage case 140 has a square or circular structure. Among the prior art, the direct scattering of atomizing drainage tube is put in atomizing inhalation machine body one side, and is more in disorder when making the atomizing inhalation machine body place, and is inconvenient to carry, and often fold the atomizing drainage tube when using at ordinary times and place etc. lead to the folding department of atomizing drainage tube to produce the crackle, and life reduces.

Specifically, the utility model discloses a set up storage box 140 at aerosol inhalation machine body 100 for aerosol inhalation machine body 100 finishes using the back, can accomodate atomizing drainage tube 141 on the reel with atomizing nozzle cover 170 together at storage box 140. On the one hand, the atomizing drain 141 and the atomizing nozzle cover 170 can be neatly placed, and on the other hand, the atomizing drain 141 can be prevented from being damaged by folding.

According to a preferred embodiment, a medical fluid chamber port 112 and a medical fluid chamber cover 111 are provided on the top of the medical fluid chamber 110. The size of the liquid medicine cavity cover 111 is matched with the size of the liquid medicine cavity opening 112, and the top of the liquid medicine cavity cover 111 is provided with a hand grip. The hand is connected with the liquid medicine cavity cover 111 as a whole.

Specifically, when the chemical solution is injected into the chemical solution chamber 110, the chemical solution chamber cover 111 is opened by holding the chemical solution chamber with a hand. Then, the chemical solution to be atomized is injected into the chemical solution chamber 110. Finally, after the liquid medicine is completely injected into the liquid medicine chamber 110, the liquid medicine chamber cover 111 is covered in the liquid medicine chamber 110 filled with the liquid medicine by holding the hand, and the next operation is continued.

According to a preferred embodiment, a battery 130 for supplying power to the aerosolizing mechanism 121 is also provided within the aerosolizing inhaler body 100. The battery 130 is electrically connected to the atomizer 121. The battery 130 is fixed on the top of the base plate 160 by means of bolts, and the bottom of the base plate 160 is provided with a base 161, and the base 161 is integrally connected with the base plate 160.

Preferably, the battery 130 is a lithium battery, which has more durable power and a longer life than a relatively general battery.

In order to facilitate understanding, the working principle of the neurological atomization inhalation machine provided by the utility model is explained.

Utilize the utility model provides a department of neurology aerosol inhalation machine carries out the aerosol treatment before the patient, at first, grasps with the hand and holds, opens liquid medicine chamber lid 111. Next, a chemical solution to be atomized is injected into the chemical solution chamber 110. Then, after the liquid medicine is completely injected into the liquid medicine chamber 110, the liquid medicine chamber cover 111 is closed in the liquid medicine chamber 110 filled with the liquid medicine by holding the hand. Finally, the medical fluid introduced into the medical fluid chamber 110 drops on the inclined plate 113 by gravity. The liquid medicine dropped on the inclined plate 113 slides along the inclined plate 113 to the included angle formed by the inclined plate 113 and the liquid medicine cavity 110, and then the liquid medicine enters the atomization device 121 through the included angle.

Utilize the utility model provides a department of neurology aerosol inhalation machine when carrying out aerosol treatment to the patient, specifically the operation as follows:

first, the atomizing drain 141 and the atomizing nozzle cover 170 placed in the storage case 140 are gently taken out from the storage case 140. Next, the atomizing nozzle cover 170 is placed at a proper position of the patient's nose, and it should be noted that, in order to ensure the airtightness of the atomizing nozzle cover 170, the atomizing nozzle cover 170 is worn relatively tightly on the patient's nose.

Then, in order to fix the atomizing nozzle cover 170, the head fixing band 180 on the atomizing nozzle cover 170 is worn on the head of the patient. It needs further to be noted that medical personnel need check the elasticity of head fixed band 180 after wearing head fixed band 180 at patient's head, and head fixed band 180 can not be too tight, prevents that head fixed band 180 from tightening and pressing patient's head and face, also can not wear head fixed band 180 too loose to influence atomization effect.

Finally, the switch of the atomizer 121 is turned on, so that the chemical liquid entering the atomizer 121 is atomized by the atomizer 121. The mist enters the atomization connecting cavity 150 through the lower end of the atomization connecting cavity 150, rises to the upper end of the atomization connecting cavity 150 from the lower end of the atomization connecting cavity 150, and then flows out of the atomization connecting cavity 150 and enters the atomization drainage tube 141 through the first joint 151. The mist thus enters the atomizer head 176 through the second joint 174 and is ejected from the atomizer head 176 into the oral cavity of the patient.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the invention. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the invention is defined by the claims and their equivalents.

Claims (10)

1. A neurology department aerosol inhalation machine at least comprises an aerosol inhalation machine body (100) and an aerosol nozzle cover (170) arranged on the aerosol inhalation machine body (100), wherein the aerosol nozzle cover (170) is connected with the aerosol inhalation machine body (100) through an aerosol drainage tube (141), and is characterized in that a liquid medicine cavity (110) is arranged in the aerosol inhalation machine body (100), and the bottom of the liquid medicine cavity (110) is provided with an inclined plate (113); one end of the inclined plate (113) is connected with the side wall of the liquid medicine cavity (110) in an integrated mode, the other end of the inclined plate (113) is in contact with the atomizing device (121), and an included angle of 45-90 degrees is formed between the inclined plate (113) and the other side wall connected with the liquid medicine cavity (110) and the inclined plate (113).

2. The neurological atomizing inhaler according to claim 1, wherein the atomizing nozzle cover (170) comprises at least an air bag layer (173) and a protective layer (190), wherein the protective layer (190) is composed of a sponge layer (172) and a gauze layer (171), wherein:

the air bag layer (173) is arranged around the opening of the atomizing nozzle cover (170) in an adhesive manner and is contacted with the face of the patient;

the gauze layer (171) is wrapped and arranged on the outer side of the sponge layer (172) in an adhesive mode, one side of the gauze layer (171) is connected with the atomizing nozzle cover (170) in an adhesive mode, and the other side of the gauze layer (171) is connected with the air bag layer (173) in an adhesive mode.

3. The neurological atomizing inhaler according to claim 1, wherein a head fixing strap (180) is disposed on the atomizing nozzle cover (170), the head fixing strap (180) at least comprises a first fixing strap (181), an elastic connecting strap (182) and a second fixing strap (183), wherein: the first fixing strap (181) is connected with the second fixing strap (183) through the elastic connecting strap (182).

4. The neurological atomizing inhalation machine according to claim 1, characterized in that an atomizing nozzle (176) is arranged on one side of the atomizing nozzle cover (170) close to the patient, the atomizing nozzle (176) is connected with the atomizing drainage tube (141) in a clamping manner through a second connector (174), and a sealing ring (175) is arranged around the second connector (174); and the atomization drainage tube (141) is connected with the atomization connecting cavity (150) in a clamping manner through a first connector (151).

5. The neurological atomizing inhaler according to claim 1, wherein an atomizing cavity (120) is disposed in the atomizing inhaler body (100), the atomizing cavity (120) is fixedly connected to an outer side wall of the liquid medicine cavity (110) in a threaded manner, and the atomizing cavity (120) is communicated with the liquid medicine cavity (110) through the atomizing device (121).

6. The neurological atomizing inhaler according to claim 5, wherein an atomizing connecting cavity (150) is arranged at the top of the atomizing cavity (120), and the atomizing connecting cavity (150) is integrally connected with the atomizing cavity (120).

7. The neurological atomizing inhaler according to claim 1, wherein a bottom plate (160) is disposed at the bottom of the atomizing inhaler body (100), and the liquid medicine cavity (110) and the atomizing cavity (120) are fixedly connected with the bottom plate (160) in a threaded manner.

8. The neurological atomizing inhaler according to claim 1, wherein a housing box (140) for housing the atomizing drainage tube (141) and the atomizing nozzle cover (170) is disposed on an outer side wall of the atomizing inhaler body (100), the housing box (140) is a hollow structure with an opening at the top, and the housing box (140) is connected with the atomizing inhaler body (100) in a threaded manner.

9. The neurological atomizing inhaler according to claim 1, wherein a medical liquid cavity (112) and a medical liquid cavity cover (111) are disposed on the top of the medical liquid cavity (110), the size of the medical liquid cavity cover (111) is matched with the size of the medical liquid cavity (112), and a handle is disposed on the top of the medical liquid cavity cover (111) and integrally connected with the medical liquid cavity cover (111).

10. The neurological aerosol inhalation machine of claim 7, wherein a battery (130) for supplying power to the aerosol inhalation machine body (100) is further provided, and the battery (130) is electrically connected with the aerosol inhalation machine body (121); the battery (130) is fixed on the top of the bottom plate (160) in a bolt mode, a base (161) is arranged at the bottom of the bottom plate (160), and the base (161) is integrally connected with the bottom plate (160).

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