CN116099086B - Plant liquid atomization drug delivery device and application method thereof - Google Patents

Abstract

The invention discloses a plant liquid atomization drug delivery device and a use method thereof, and relates to the technical field of atomization drug delivery. This plant liquid atomizing dosing device and application method thereof, plant liquid is equipped with in the inside of heat conduction wall, compare in electric power direct heating, heat makes it by even heating through heat conduction wall conduction to plant liquid, prevent uneven mechanism to the inside of plant liquid lets in oxygen, oxygen carries atomizing plant liquid and gets into the outlet duct, the liquid feeding subassembly supplements plant liquid to the inside of heat conduction wall, avoid plant liquid component to reduce, under the same heating oil heating temperature, avoid the less plant liquid atomizing of component speed to increase, avoid plant liquid atomizing gas-liquid concentration to increase, the atomizing speed is too fast when having solved medicament heating and has led out leads to the not good problem of medicinal effect.

Description

Plant liquid atomization drug delivery device and application method thereof

Technical Field

The invention relates to the technical field of atomization administration, in particular to a plant liquid atomization administration device and a use method thereof.

Background

The medical atomization drug feeder is mainly used for treating various upper and lower respiratory diseases, an atomization inhaler is used for heating and atomizing liquid medicine into tiny particles, and the medicine enters respiratory tract and lung for deposition in a respiratory inhalation mode, so that the purpose of painless, rapid and effective treatment is achieved, plant liquid made of natural plants is usually adopted as medicinal base liquid in the existing atomization liquid, and Chinese patent publication No. CN102614323B discloses a preparation method of the atomization liquid for treating infantile asthmatic suffocating pneumonia, and the preparation method comprises the following steps of: 3 parts of gleditsia sinensis, 9 parts of loquat leaf, 15 parts of hop, 15 parts of semen Benincasae, 9 parts of vanilla, 9 parts of platycodon grandiflorum, 10 parts of red clover, 6 parts of radix peucedani and 1 part of borneol; the preparation method comprises the following steps: (1) Pulverizing folium Eriobotryae, flos Lupuli, and herba Cymbopogonis Citrari, extracting with supercritical fluid to obtain volatile oil; (2) Pulverizing fructus Gleditsiae Abnormalis and Borneolum Syntheticum, and sieving with 200 mesh sieve to obtain superfine powder; (3) Decocting herba Trifolii Pratentis, radix Peucedani, semen Benincasae, and radix Platycodi with water for 2 times, filtering, mixing filtrates, and concentrating at 80deg.C to relative density of 1.1 to obtain water extractive solution; (4) Adding the volatile oil obtained in the step 1 and the superfine powder obtained in the step 2 into the water extract obtained in the step 3, uniformly stirring, standing for 12 hours at normal temperature, and filtering to obtain a liquid medicine, wherein the plant liquid can be used for treating asthmatic pneumonia.

The existing plant liquid atomization drug delivery device has the problems that due to structural design defects, the drug effect is poor due to the fact that the atomization speed is too high when a drug is heated and led out, and the drug effect is poor due to the fact that oxygen and atomized liquid particles cannot be uniformly mixed.

Disclosure of Invention

The invention provides a plant liquid atomization drug delivery device and a use method thereof, which solve the problems in the background technology.

In order to achieve the above purpose, the invention is realized by the following technical scheme: a plant liquid atomization drug delivery device comprises

The top of the base is fixedly connected with a tank body, and the top of the tank body is fixedly connected with an air outlet pipe;

the quick heating prevention mechanism is used for adding supplementary plant liquid into the tank body, high-temperature heating oil is communicated between the tank body and the quick heating prevention mechanism, and the heating oil heats the plant liquid in the tank body and the supplementary plant liquid; the device comprises a heat conducting wall, wherein a connecting pipe is fixedly connected between the heat conducting wall and a tank body, a liquid adding component is fixedly connected to the top of the connecting pipe and is arranged at a gap position between the tank body and the heat conducting wall, the liquid adding component adds supplementary plant liquid into the heat conducting wall, high-temperature heating oil is introduced into the connecting pipe through the oil guiding pipe, and the heating oil is led into the tank body through a hole at the bottom of the connecting pipe;

and the uneven prevention mechanism is used for introducing oxygen into the plant liquid in the heat conducting wall from bottom to top, the plant liquid is heated by high-temperature heating oil to be atomized, the oxygen carries the atomized plant liquid to move upwards, and the gas-liquid mixed fluid is discharged through the air outlet pipe to be administered.

Preferably, the connecting pipe inclines to set up, the top fixedly connected with of connecting pipe leads oil pipe, the fixed surface of connecting pipe is connected with the motor, the fixed surface of motor is connected with the efficiency-increasing subassembly.

Preferably, the synergistic assembly comprises an embedded wall, the surface of the embedded wall is fixedly connected with the surface of the motor, an extension rod is fixedly connected with the rotation of the output end of the motor, and a sealing ring is fixedly connected with the surface of the extension rod.

Preferably, one end fixedly connected with stirring piece that the motor was kept away from to the extension rod, the liquid feeding subassembly includes the pump body, the surface of the pump body and the top fixed connection on jar body surface, supplementary plant liquid adds in embedded wall through the oblique return bend, and plant liquid is fully heated in the oblique return bend, and the conducting strip twines on the surface of oblique return bend for plant liquid and heating oil's heat exchange efficiency improves.

Preferably, the output of the pump body is fixedly connected with the inclined bent pipe, the surface fixedly connected with conducting strip of inclined bent pipe, the one end fixedly connected with catheter that the pump body was kept away from to the inclined bent pipe, the inside of the pump body syncline bent pipe lets in the plant liquid, and the pump body sets up the top position on jar body surface, and the inclined bent pipe slope sets up for the plant liquid flows to the position of catheter at the inclined bent pipe.

Preferably, the uneven mechanism comprises a vent pipe, the upper position of the surface of the vent pipe is fixedly connected with the bottom of the heat conducting wall, the bottom end of the vent pipe is fixedly connected with an even assembly, and the bottom of the even assembly is fixedly connected with an air pump.

Preferably, the middle part position fixedly connected with connecting rod at even subassembly top, the top fixedly connected with arc shell of connecting rod, the top fixedly connected with mixing element of arc shell, the air pump carries oxygen to even subassembly in, oxygen at even subassembly evenly distributed, and then the oxygen is introduced into the heat conduction wall through a plurality of breather pipe, and oxygen lets in the plant liquid from bottom to top, and the solubility of oxygen is extremely low.

Preferably, the even subassembly includes the subassembly wall, the bottom fixed connection of subassembly wall's surface and jar internal side, the bottom of subassembly wall and the output fixed connection of air pump, the bottom fixed connection of subassembly wall's top and breather pipe.

Preferably, the surface of subassembly wall is provided with the necking down, the top fixedly connected with elastic rod of subassembly wall medial surface, the bottom fixedly connected with clamping ring of elastic rod, oxygen is let in the subassembly wall, and the elastic rod exerts pressure to the clamping ring, and the necking down cooperates with the clamping ring for the flow of oxygen is obstructed.

The application method of the plant liquid atomization drug delivery device comprises the following steps:

step one, heating plant liquid, introducing high-temperature heating oil into the interior of a connecting pipe by an oil guide pipe, introducing the heating oil into a tank body by a hole at the bottom of the connecting pipe, and uniformly heating the plant liquid by heat conduction to the plant liquid through a heat conduction wall compared with direct electric heating, wherein the uneven prevention mechanism introduces oxygen into the interior of the plant liquid, the oxygen carries atomized plant liquid into an air outlet pipe, and a liquid adding component supplements the plant liquid into the interior of the heat conduction wall;

supplementing plant liquid, namely introducing the plant liquid into the oblique bent pipe by the pump body, wherein the pump body is arranged above the surface of the tank body, the oblique bent pipe is obliquely arranged, so that the plant liquid flows to the liquid guiding pipe at the oblique bent pipe, the bottom end of the liquid guiding pipe extends to the inner part of the embedded wall, the obliquely arranged embedded wall enables the supplemented plant liquid to be introduced into the heat conducting wall, and the supplemented plant liquid is mixed with the plant liquid in the heat conducting wall;

step three, introducing oxygen, wherein the oxygen is introduced into the component wall, the elastic rod applies pressure to the compression ring, the necking is matched with the compression ring, so that the flow of the oxygen is blocked, when the oxygen pressure in the component wall is large enough, the compression ring is jacked by the oxygen, then the oxygen enters the plant liquid through a plurality of ventilation pipes, the oxygen carries the plant liquid which is heated and atomized to reach the arc-shaped shell, and the mixing component drives the fluid to move upwards;

step four, aerial fog mixes, in the air pump was carried oxygen to even subassembly, oxygen was at even subassembly evenly distributed, then in the oxygen was introduced into the heat conduction wall through a plurality of breather pipe, in the oxygen was let in the plant liquid from bottom to top, the solubility of oxygen was extremely low, carries atomizing liquid to the arc shell when oxygen upwards moved, the arc shell hindered atomizing liquid and oxygen, oxygen carried liquid particle upwards flows from the border position of arc shell, fluidic flow was hindered and is made intensive mixing between the composition.

The invention provides a plant liquid atomization drug delivery device and a use method thereof. The beneficial effects are as follows:

1. this plant liquid atomizing dosing device and application method thereof, plant liquid is equipped with in the inside of heat conduction wall, compare in electric power direct heating, heat makes it by even heating through heat conduction wall conduction to plant liquid, prevent uneven mechanism to the inside of plant liquid lets in oxygen, oxygen carries atomizing plant liquid and gets into the outlet duct, the liquid feeding subassembly supplements plant liquid to the inside of heat conduction wall, avoid plant liquid component to reduce, under the same heating oil heating temperature, avoid the less plant liquid atomizing of component speed to increase, avoid plant liquid atomizing gas-liquid concentration to increase, the atomizing speed is too fast when having solved medicament heating and has led out leads to the not good problem of medicinal effect.

2. This plant liquid atomizing dosing device and application method thereof, the bottom of catheter extends to the inside of embedded wall, the embedded wall of slope setting makes supplementary plant liquid let in the heat conduction wall, supplementary plant liquid mixes with the plant liquid in the heat conduction wall, supplementary plant liquid is when the inside circulation of oblique return bend, the temperature of heating oil makes the temperature of plant liquid improve, avoid too low temperature plant liquid to let in the heat conduction wall, cause plant liquid temperature in the heat conduction wall to reduce fast, avoid the unstable problem that leads to the medicinal effect of atomizing rate of plant liquid.

3. This plant liquid atomizing dosing device and application method thereof, when oxygen upwards moves carry atomizing liquid to the arc shell, the arc shell hinders atomizing liquid and oxygen, mixing assembly guides the fluid, oxygen carries liquid particle to upwards flow from the border position of arc shell, fluidic flow is hindered and is made intensive mixing between the composition, then, mixed fluid discharges from the outlet duct and doses, the unable homogeneous mixing of oxygen and atomizing liquid particle leads to the not good problem of medicinal effect has been solved.

4. This plant liquid atomizing dosing device and application method, when the inside oxygen pressure of subassembly wall is big enough, oxygen jack-up the clamping ring, then, oxygen gets into plant liquid through a plurality of breather pipe, oxygen carries the plant liquid that heats atomizing and reachs the arc shell, the fan drives fluid and upwards moves, mixed fluid is guided through the side position of arc shell by the fan, the clamping ring hinders the oxygen in the subassembly wall, the oxygen is cut apart into a plurality of circulation of air and is gone into in the plant liquid, can make the oxygen carry the efficiency of evaporating liquid higher.

5. This plant liquid atomizing dosing device and application method thereof, the motor drives the extension rod and rotates, and the sealing washer can avoid the plant liquid of being heated to causing the damage, and plant liquid downwardly flow to in the heat conduction wall, and stirring piece stirs the plant liquid in supplementary plant liquid and the heat conduction wall for liquid component intensive mixing, oxygen carry atomizing plant liquid and arrive the flight, and the fluid passes through the flight and gets into in the trompil, and the spiral lift of flight makes fluid entering linking wall mixing efficiency higher.

Drawings

FIG. 1 is a flow chart of a method of using a plant fluid aerosolized drug delivery device of the present invention;

FIG. 2 is a schematic top view of the plant fluid atomizing administration device according to the present invention;

FIG. 3 is a schematic view showing the structure of the plant liquid atomizing administration device in the whole bottom view;

FIG. 4 is a schematic diagram of the structure of the anti-rapid heating mechanism of the present invention;

FIG. 5 is a schematic structural view of the synergistic assembly of the present invention;

FIG. 6 is a schematic view of the liquid feeding assembly of the present invention;

FIG. 7 is a schematic view of the structure of the anti-uneven mechanism of the present invention;

FIG. 8 is a schematic structural view of a uniformity component of the present invention;

fig. 9 is a schematic structural view of the mixing assembly of the present invention.

In the figure: 1. a base; 2. a tank body; 3. a quick heating prevention mechanism; 31. a heat conducting wall; 32. a connecting pipe; 33. a motor; 34. an oil guide pipe; 35. a synergy component; 351. an embedded wall; 352. an extension rod; 353. a seal ring; 354. a stirring piece; 36. a liquid adding component; 361. a pump body; 362. a bevel elbow; 363. a heat conductive sheet; 364. a catheter; 4. an air outlet pipe; 5. an uneven prevention mechanism; 51. a vent pipe; 52. a uniformity component; 521. a component wall; 522. necking; 523. an elastic rod; 524. a compression ring; 53. an air pump; 54. a connecting rod; 55. an arc-shaped shell; 56. a mixing assembly; 561. a connecting wall; 562. opening holes; 563. a spiral sheet; 564. a blower.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-3, the present invention provides a technical solution: a plant liquid atomization drug delivery device and a use method thereof comprise

The device comprises a base 1, wherein the top of the base 1 is fixedly connected with a tank body 2, and the top of the tank body 2 is fixedly connected with an air outlet pipe 4;

the anti-rapid heating mechanism 3 is used for adding supplementary plant liquid into the tank body 2, high-temperature heating oil is communicated between the tank body 2 and the anti-rapid heating mechanism 3, and the heating oil heats the plant liquid in the tank body 2 and the supplementary plant liquid; the plant liquid adding device comprises a heat conducting wall 31, wherein a connecting pipe 32 is fixedly connected to the position between the heat conducting wall 31 and a tank body 2, a liquid adding component 36 is fixedly connected to the top of the connecting pipe 32, the liquid adding component 36 is arranged at a gap position between the tank body 2 and the heat conducting wall 31, and the liquid adding component 36 adds the supplementary plant liquid into the heat conducting wall 31;

the connecting pipe 32 is obliquely arranged, the top of the connecting pipe 32 is fixedly connected with an oil guide pipe 34, the surface of the connecting pipe 32 is fixedly connected with a motor 33, and the surface of the motor 33 is fixedly connected with a synergy component 35;

the uneven mechanism 5 is used for introducing oxygen into the plant liquid in the heat conducting wall 31 from bottom to top, the plant liquid is heated by high-temperature heating oil to be atomized, the oxygen carries the atomized plant liquid to move upwards, and the gas-liquid mixed fluid is discharged through the air outlet pipe 4 to be administered.

When the device is used, the high-temperature heating oil is introduced into the connecting pipe 32 from the oil guide pipe 34, the heating oil is led into the tank body 2 through the holes at the bottom of the connecting pipe 32, the plant liquid is filled in the heat conducting wall 31, compared with direct electric heating, the plant liquid is evenly heated through heat conducting wall 31, the heat is conducted to the plant liquid, the oxygen is introduced into the plant liquid from the uneven mechanism 5, the atomized plant liquid is carried into the air outlet pipe 4 through the oxygen, the plant liquid is supplemented into the heat conducting wall 31 by the liquid adding component 36, the plant liquid amount is prevented from being reduced, the atomized speed of the plant liquid with less amount is prevented from being increased under the same heating temperature of the heating oil, the atomized gas-liquid concentration of the plant liquid is prevented from being increased, and the problem that the medicinal effect is poor due to the excessively high atomization speed when the medicament is heated and led out is solved.

As shown in fig. 4 and 5, the synergistic assembly 35 includes an embedded wall 351, the surface of the embedded wall 351 is fixedly connected with the surface of the motor 33, an extension rod 352 is fixedly connected with the rotation of the output end of the motor 33, a sealing ring 353 is fixedly connected with the surface of the extension rod 352, one end of the extension rod 352 away from the motor 33 is fixedly connected with an agitating plate 354, the liquid adding assembly 36 includes a pump body 361, the surface of the pump body 361 is fixedly connected with the upper position of the surface of the tank body 2, the output end of the pump body 361 is fixedly connected with an inclined elbow 362, the surface of the inclined elbow 362 is fixedly connected with a heat conducting plate 363, and one end of the inclined elbow 362 away from the pump body 361 is fixedly connected with a liquid guiding tube 364.

During the use, the inside of pump body 361 syncline return bend 362 lets in the plant liquid, the pump body 361 sets up the top position on jar body 2 surface, the syncline return bend 362 slope sets up for the plant liquid flows to the position of catheter 364 at syncline return bend 362, the bottom of catheter 364 extends to the inside of embedded wall 351, the embedded wall 351 of slope setting makes supplementary plant liquid let in heat conduction wall 31, supplementary plant liquid mixes with the plant liquid in the heat conduction wall 31, when supplementary plant liquid circulates in the inside of syncline return bend 362, the temperature of heating oil makes the temperature of plant liquid improve, avoid the plant liquid of too low temperature to let in heat conduction wall 31, cause the plant liquid temperature in the heat conduction wall 31 to reduce fast, avoid the unstable problem that leads to the medicinal effect of plant liquid's atomizing rate.

As shown in fig. 3 and 6, a connecting pipe 32 is fixedly connected to a position between the heat conducting wall 31 and the tank body 2, a liquid adding component 36 is fixedly connected to the top of the connecting pipe 32, a gap position between the tank body 2 and the heat conducting wall 31 is formed, the liquid adding component 36 adds the supplementary plant liquid into the heat conducting wall 31, the uneven prevention mechanism 5 comprises a vent pipe 51, a position above the surface of the vent pipe 51 is fixedly connected with the bottom of the heat conducting wall 31, a uniform component 52 is fixedly connected to the bottom of the vent pipe 51, an air pump 53 is fixedly connected to the bottom of the uniform component 52, a connecting rod 54 is fixedly connected to the middle position of the top of the uniform component 52, an arc-shaped shell 55 is fixedly connected to the top of the connecting rod 54, and a mixing component 56 is fixedly connected to the top of the arc-shaped shell 55.

During the use, the air pump 53 carries oxygen to even subassembly 52, oxygen evenly distributes at even subassembly 52, then the oxygen is introduced into heat conduction wall 31 through a plurality of breather pipe 51, in the oxygen lets in the plant liquid from bottom to top, the solubility of oxygen is extremely low, carry atomizing liquid to arc shell 55 when oxygen upwards moves, arc shell 55 obstructs atomizing liquid and oxygen, mixing assembly 56 carries the fluid, oxygen carries liquid particle to upwards flow from the border position of arc shell 55, the flow of fluid is obstructed and is made intensive mixing between the composition, afterwards, mixed fluid is discharged from outlet duct 4 and is dosed, the unable homogeneous mixing of oxygen and atomizing liquid particle leads to the not good problem of medicinal effect.

As shown in fig. 6, 7 and 8, the uniform component 52 includes a component wall 521, a necking 522 is provided on the surface of the component wall 521, an elastic rod 523 is fixedly connected to the top of the inner side surface of the component wall 521, a compression ring 524 is fixedly connected to the bottom end of the elastic rod 523, the mixing component 56 includes a connecting wall 561, a fan 564 is fixedly connected to the upper position of the surface of the connecting wall 561 and the top of the inner side surface of the tank 2, an opening 562 is provided on the lower position of the surface of the connecting wall 561, a spiral piece 563 is fixedly connected to the position of the surface of the connecting wall 561 close to the opening 562, and the bottom of the connecting wall 561 is fixedly connected to the top of the arc-shaped shell 55.

When the oxygen is used, oxygen is introduced into the assembly wall 521, the elastic rod 523 applies pressure to the compression ring 524, the necking 522 is matched with the compression ring 524, so that the flow of the oxygen is blocked, when the oxygen pressure in the assembly wall 521 is high enough, the compression ring 524 is jacked up by the oxygen, then, the oxygen enters the plant liquid through the plurality of ventilation pipes 51, the oxygen carries the plant liquid which is heated and atomized to reach the arc-shaped shell 55, the fan 564 drives the fluid to move upwards, the mixed fluid is guided by the fan 564 to pass through the side edge position of the arc-shaped shell 55, the compression ring 524 blocks the oxygen in the assembly wall 521, and the oxygen is divided into a plurality of air flows to the plant liquid, so that the efficiency of the oxygen carrying the evaporated liquid is higher.

As shown in fig. 4, 6 and 8, the surface of the embedded wall 351 is fixedly connected with the surface of the motor 33, an extension rod 352 is fixedly connected with the rotation of the output end of the motor 33, a sealing ring 353 is fixedly connected with the surface of the extension rod 352, an agitating plate 354 is fixedly connected with one end of the extension rod 352 away from the motor 33, the liquid adding component 36 comprises a pump body 361, the surface of the pump body 361 is fixedly connected with the upper position of the surface of the tank body 2, the upper position of the surface of the connecting wall 561 is fixedly connected with the top of the inner side surface of the tank body 2, a fan 564 is fixedly connected with the upper position of the inner side surface of the connecting wall 561, an opening 562 is formed in the lower position of the surface of the connecting wall 561, a spiral piece 563 is fixedly connected with the position of the surface of the connecting wall 561 close to the opening 562, and the bottom of the connecting wall 561 is fixedly connected with the top of the arc-shaped shell 55.

When the device is used, the supplementary plant liquid is added into the embedded wall 351 through the inclined bent pipe 362, the plant liquid is fully heated in the inclined bent pipe 362, the heat conducting sheet 363 is wound on the surface of the inclined bent pipe 362, so that the heat exchange efficiency of the plant liquid and heating oil is improved, the motor 33 drives the extension rod 352 to rotate, the sealing ring 353 can avoid damage to the heated plant liquid, the plant liquid flows downwards into the heat conducting wall 31, the stirring sheet 354 stirs the supplementary plant liquid and the plant liquid in the heat conducting wall 31, so that liquid components are fully mixed, oxygen carries the atomized plant liquid to the spiral sheet 563, fluid enters the opening 562 through the spiral sheet 563, and the spiral lifting force of the spiral sheet 563 enables the fluid to enter the connecting wall 561 to have higher mixing efficiency.

As shown in fig. 1-9, a method for using a plant fluid atomizing and administering device comprises the following steps:

step one, heating plant liquid, introducing high-temperature heating oil into the connecting pipe 32 by the oil guide pipe 34, introducing the heating oil into the tank body 2 by the hole at the bottom of the connecting pipe 32, wherein the plant liquid is filled in the heat conducting wall 31, compared with direct electric power heating, the plant liquid is uniformly heated by heat conducted to the plant liquid through the heat conducting wall 31, oxygen is introduced into the plant liquid by the uneven prevention mechanism 5, the atomized plant liquid is carried by the oxygen to enter the air outlet pipe 4, and the plant liquid is supplemented into the heat conducting wall 31 by the liquid adding component 36;

step two, supplementing plant liquid, namely introducing the plant liquid into the oblique bent pipe 362 by the pump body 361, wherein the pump body 361 is arranged at a position above the surface of the tank body 2, the oblique bent pipe 362 is obliquely arranged, the plant liquid flows to the position of the liquid guide pipe 364 at the oblique bent pipe 362, the bottom end of the liquid guide pipe 364 extends to the inside of the embedded wall 351, the obliquely arranged embedded wall 351 enables the supplemented plant liquid to be introduced into the heat conducting wall 31, and the supplemented plant liquid is mixed with the plant liquid in the heat conducting wall 31;

step three, introducing oxygen, wherein the oxygen is introduced into the component wall 521, the elastic rod 523 applies pressure to the compression ring 524, the necking 522 is matched with the compression ring 524, so that the flow of the oxygen is blocked, when the oxygen pressure in the component wall 521 is large enough, the oxygen jacks up the compression ring 524, then the oxygen enters the plant liquid through the plurality of ventilation pipes 51, the oxygen carries the plant liquid which is heated and atomized to reach the arc-shaped shell 55, and the mixing component 56 drives the fluid to move upwards;

step four, aerial fog mixes, in air pump 53 carried the oxygen to even subassembly 52, oxygen evenly distributes at even subassembly 52, and then the oxygen is introduced into heat conduction wall 31 through a plurality of breather pipe 51, and in the oxygen was let in the plant liquid from bottom to top, the solubility of oxygen was extremely low, carries atomizing liquid to arc shell 55 when oxygen upwards moved, and arc shell 55 obstructs atomizing liquid and oxygen, and oxygen carries liquid particle to upwards flow from the border position of arc shell 55, and the flow of fluid is obstructed and is made intensive mixing between the components.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The term "comprising" an element defined by the term "comprising" does not exclude the presence of other identical elements in a process, method, article or apparatus that comprises the element.

Claims (5)

1. A plant liquid atomizing and dosing device, which is characterized in that: comprising

The device comprises a base (1), wherein the top of the base (1) is fixedly connected with a tank body (2), and the top of the tank body (2) is fixedly connected with an air outlet pipe (4);

the quick heating prevention mechanism (3) is used for adding supplementary plant liquid into the tank body (2), high-temperature heating oil is communicated between the tank body (2) and the quick heating prevention mechanism (3), and the plant liquid and the supplementary plant liquid in the tank body (2) are heated by the heating oil; the novel plant liquid filling device comprises a heat conducting wall (31), wherein a connecting pipe (32) is fixedly connected to the position between the heat conducting wall (31) and a tank body (2), a liquid filling assembly (36) is fixedly connected to the top of the connecting pipe (32), the novel plant liquid filling device is arranged at a gap position between the tank body (2) and the heat conducting wall (31), and the liquid filling assembly (36) is used for adding supplementary plant liquid into the heat conducting wall (31);

the uneven prevention mechanism (5) is used for introducing oxygen into the plant liquid in the heat conducting wall (31) from bottom to top, the plant liquid is heated by high-temperature heating oil to be atomized, the oxygen carries the atomized plant liquid to move upwards, and the gas-liquid mixed fluid is discharged through the air outlet pipe (4) for administration;

the uneven prevention mechanism (5) comprises a vent pipe (51), wherein the upper position of the surface of the vent pipe (51) is fixedly connected with the bottom of the heat conducting wall (31), the bottom end of the vent pipe (51) is fixedly connected with a uniform assembly (52), and the bottom of the uniform assembly (52) is fixedly connected with an air pump (53);

the middle part of the top of the uniform component (52) is fixedly connected with a connecting rod (54), the top of the connecting rod (54) is fixedly connected with an arc-shaped shell (55), and the top of the arc-shaped shell (55) is fixedly connected with a mixing component (56);

the uniform assembly (52) comprises an assembly wall (521), the surface of the assembly wall (521) is fixedly connected with the bottom of the inner side surface of the tank body (2), the bottom of the assembly wall (521) is fixedly connected with the output end of the air pump (53), and the top of the assembly wall (521) is fixedly connected with the bottom end of the vent pipe (51);

the surface of subassembly wall (521) is provided with necking down (522), the top of subassembly wall (521) medial surface fixedly connected with elastic rod (523), the bottom fixedly connected with clamping ring (524) of elastic rod (523).

2. A plant fluid nebulizing delivery device according to claim 1, wherein: the connecting pipe (32) is obliquely arranged, an oil guide pipe (34) is fixedly connected to the top of the connecting pipe (32), a motor (33) is fixedly connected to the surface of the connecting pipe (32), and a synergy component (35) is fixedly connected to the surface of the motor (33).

3. A plant fluid nebulizing delivery device according to claim 2, characterized in that: the synergy component (35) comprises an embedded wall (351), the surface of the embedded wall (351) is fixedly connected with the surface of the motor (33), an extension rod (352) is fixedly connected with the rotation of the output end of the motor (33), and a sealing ring (353) is fixedly connected with the surface of the extension rod (352).

4. A plant fluid nebulizing delivery device according to claim 3, characterized in that: one end of the extension rod (352) away from the motor (33) is fixedly connected with an agitating sheet (354), the liquid adding component (36) comprises a pump body (361), and the surface of the pump body (361) is fixedly connected with the upper position of the surface of the tank body (2).

5. A plant fluid aerosolized drug delivery device according to claim 4, wherein: the output end of the pump body (361) is fixedly connected with an inclined bent pipe (362), the surface of the inclined bent pipe (362) is fixedly connected with a heat conducting fin (363), and one end of the inclined bent pipe (362) away from the pump body (361) is fixedly connected with a liquid guide pipe (364).