Breathe internal medicine atomizing and spout medicine device
Technical Field
The invention relates to an atomization medicine spraying device for respiratory medicine, belonging to the field of medicine spraying devices.
Background
Oral medication is common, but the medicine acts on the disease position in a circulating way for a certain time, the treatment period is long, and the disease cannot be relieved instantly; at present, a tube or an injector is used for blowing the medicine to the throat part for diminishing inflammation, but the medicine spraying in the operation mode is uneven, the visual angle in the oral cavity is limited, the medicine action position cannot be well controlled, the medicine effect cannot be fully exerted, the use is limited, the atomizer in the prior art is caused, and the requirements of people cannot be met. The atomization treatment is to dissolve the medicine in water, atomize into tiny particles, enter the diseased parts such as respiratory tract and lung in the respiratory process of a patient, and finally achieve the purpose of painless and rapid effective treatment, and the sore throat, tonsil inflammation, upper respiratory infection and the like are common diseases of respiratory medicine.
In the prior art, too long spray pipes are deposited on the upper respiratory tract such as oral cavity, throat and the like, so that the medicine particles can not go deep into the lower respiratory tract for treatment, and the phenomena of oxygen deficiency, choking cough and the like are easy to occur due to too large spray pressure.
Disclosure of Invention
2. Aiming at the defects in the prior art, the invention aims to provide a respiratory medicine atomization spraying device to solve the problems that too long spraying pipe is used for depositing medicine particles on upper respiratory tracts such as oral cavities and throats, so that the medicine particles cannot go deep into the lower respiratory tracts for treatment, and the phenomena of oxygen deficiency, cough and the like are easy to occur due to too high spraying pressure.
3. In order to achieve the purpose, the invention is realized by the following technical scheme: a respiratory medicine atomization spraying device structurally comprises a medicine bottle, a medicine cover, a suction nozzle joint, a double connector, a suction nozzle and a spraying structure, wherein external threads of the medicine bottle are connected with internal threads of the medicine cover to form an integrated structure, the diameter of the medicine bottle is larger than that of the medicine cover, the inner ring side of the suction nozzle joint is meshed with the front end of the medicine cover, the suction nozzle joint is arranged above the front end of the medicine bottle, the suction nozzle is of an oil leakage structure, the suction nozzle joint and the suction nozzle are fixedly connected through the double connector, the double connector is embedded in the inner ring side of the suction nozzle and is buckled on the front end face of the suction nozzle joint, the medicine bottle, the medicine cover, the suction nozzle joint, the double connector and the suction nozzle form a 7-shaped structure, the medicine bottle, the medicine cover, the suction nozzle joint, the double connector and the suction nozzle are communicated with each other, the spraying structure is arranged inside the medicine bottle and is communicated with the suction, the medicine spraying structure consists of an air guide tube, an air cavity ball, an air flow tower frame, a pressurizing net, an inner oxygen bucket and a pipe column, wherein the air guide tube, the air cavity ball, the air flow tower frame and the inner oxygen bucket are communicated with each other, the air guide tube, the air cavity ball, the air flow tower frame, the pressurizing net, the inner oxygen bucket and the pipe column are positioned on the same axis, the air guide tube in a spiral structure is meshed with the air cavity ball in a circular structure, the air cavity ball in the circular structure is nested with the air flow tower frame in a conical structure, the spraying structure is installed at the joint of the air cavity ball and the air flow tower frame, the air flow tower frame is arranged in the middle of the pressurizing net and the inner oxygen bucket and is fastened with the pipe column in a cylinder structure, the inner oxygen bucket and the pipe column form a Y-shaped structure, the atomizing structure is installed at the joint of the inner oxygen bucket and the pipe column, the air guide tube adopts a spiral design and shortens the length, The upper respiratory tracts such as the throat and the like are easy to cause the liquid medicine to form water drops to be hung on the inner cavity wall, so that the liquid medicine has high demand and causes waste. The spraying structure consists of an air guide structure, a middle guide frame, a ring cover, a piston ring and a locking frame, the air guide structure is movably connected with the middle guide frame through the ring cover, the piston ring is fixedly connected and locked with the locking frame through the ring cover, the air guide structure, the middle guide frame, the ring cover, the piston ring and the locking frame are positioned on the same axis, a hollow structure is added during spraying air guide, the problem that the spraying pressure is overlarge due to the fact that high-speed airflow is formed by a compressed air pipe orifice is solved, the atomizing structure consists of an electrode ring, an insulating ring, a thread sealing structure, a ceramic seat, a heating plate and an atomizing sleeve, the electrode ring, the insulating ring, the thread sealing structure, the ceramic seat and the atomizing sleeve are positioned in concentric circles, the electrode ring penetrates through the insulating ring, the insulating ring is positioned in the middle of the electrode ring, the upper end of the electrode ring is meshed with the thread sealing structure, the ceramic base is connected with thread sealing structure through the atomizing cover, the board that generates heat is established inside the ceramic base, the locking frame is installed with the junction of air current pylon to the trachea chamber ball, the atomizing cover is installed with the junction of tube column to interior oxygen fill, utilizes the power transmission to realize the hydrojet atomizing, and the patient is also more thin difficult oxygen deficiency phenomenon that appears of atomizing when using, appears chocing and coughs etc. can deepen the treatment of lower respiratory track.
4. Furthermore, the air guide structure comprises an air guide rod, an air guide column and an air guide rotary table, wherein the air guide rod penetrates through the air guide column, the air guide column is positioned at one half of the air guide rod, the air guide column is electrically connected with the air guide rotary table through a motor, and when air is guided, the air guide rotary table rotates to buffer air flow, so that the operation is more stable.
5. Further, well guide frame is including leading mouthful pillar, ladder seat, fixed brace piece, it is a pair of to lead mouthful pillar, lead mouthful pillar through fixed brace piece fixed connection in the ladder seat up end for stair structure, high-speed air current flees at leading mouthful pillar flow, and the negative pressure that produces makes injection pressure too big, and fixed brace piece reinforces it.
6. Further, the electrode ring is including fitting with a contraceptive ring panel, electrode post, friction ring, the electrode post runs through the friction ring, the electrode post upper end welds in fitting with a contraceptive ring panel lower surface, and the two constitution becomes T word structure, has designed the dibit of fitting with a contraceptive ring panel and friction ring during the electricity is connected and has fixed, and whole firm can not become flexible the security that rocks when having improved the use.
7. Further, spiral seal structure includes spring post, closing plate, ring gear, spring post, closing plate, ring gear constitute and are the cross structure of falling, spring post, closing plate, ring gear are in concentric circles, the spring post welds respectively with the ring gear on the closing plate lower surface, and the middle part of atomizing structure uses elastic design, and is sealed more firmly, uses safelyr.
Advantageous effects
When the atomization medicine spraying device for the respiratory medicine department is used, a medicine cover is opened, then medicines are placed in a medicine bottle, the medicine bottle is held by a hand after being connected with a power supply, a suction nozzle is aligned to the mouth, the edge of the suction nozzle is attached to the face, and a button of the medicine bottle is pressed down to spray medicine.
After the medicament cover is opened, the air guide tube, the air cavity ball and the airflow tower frame are separated from the pressurizing net, the inner oxygen hopper and the tubular column respectively, then the medicament is placed on the pressurizing net and flows into the tubular column, and then the air guide tube, the air cavity ball and the airflow tower frame are placed in the tubular column. Solves the problems that the medicine particles with overlong spray pipes are deposited on the upper respiratory tract of the oral cavity, the throat and the like and can not go deep into the lower respiratory tract for treatment and relieves the phenomena of oxygen deficiency, choking cough and the like caused by overlarge spray pressure.
Drawings
Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:
fig. 1 is a schematic structural view of an atomized medicine spraying device for respiratory medicine of the present invention.
Fig. 2 is a schematic structural view of a pesticide spraying structure of the present invention.
Fig. 3 is a schematic structural diagram of an atomization structure of the present invention.
FIG. 4 is a schematic structural view of the gas directing structure of the present invention.
Fig. 5 is a schematic structural view of the guide frame of the present invention.
Fig. 6 is a schematic structural view of an electrode ring of the present invention.
Fig. 7 is a structural schematic view of the thread sealing structure of the present invention.
Fig. 8 is a schematic structural view of the spiral sealing structure of the present invention.
In the figure: medicament bottle-1, medicament cover-2, mouthpiece joint-3, double connector-4, mouthpiece-5, medicament spraying structure-6, air duct-60, air cavity ball-61, air current tower-62, pressurizing net-63, internal oxygen hopper-64, pipe column-65, atomizing structure-67, spraying structure-66, air guide structure-660, middle guide frame-661, ring cover-662, piston ring-663, locking frame-664, electrode ring-670, insulating ring-671, screw thread sealing structure-672, ceramic seat-673, heating plate-674, atomizing sleeve-675, air guide rod-6600, air guide column-6601, air guide turntable-6602, guide opening support column-6610, ladder seat-6611, fixing support block-6612, upper ring panel-6700, Electrode column-6701, friction ring-6702, spring column-6720, sealing plate-6721, and gear ring-6722.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
Example 1:
referring to fig. 1-8, the present invention provides a spraying device for atomization in respiratory medicine: the structure of the medicine spraying device comprises a medicine bottle 1, a medicine cover 2, a suction nozzle joint 3, a double connector 4, a suction nozzle 5 and a medicine spraying structure 6, wherein the external thread of the medicine bottle 1 is connected with the internal thread of the medicine cover 2, the two parts form an integrated structure, the diameter of the medicine bottle 1 is larger than that of the medicine cover 2, the inner ring side of the suction nozzle joint 3 is meshed with the front end of the medicine cover 2, the suction nozzle joint 3 is arranged above the front end of the medicine bottle 1, the suction nozzle 5 is of an oil leakage structure, the suction nozzle joint 3 is fixedly connected with the suction nozzle 5 through the double connector 4, the double connector 4 is embedded in the inner ring side of the suction nozzle 5 and is buckled on the front end face of the suction nozzle joint 3, the medicine bottle 1, the medicine cover 2, the suction nozzle joint 3, the double connector 4 and the suction nozzle 5 form a 7-shaped structure, the medicine bottle 1, the medicine cover 2, the suction nozzle joint 3, the double connector 4 and the suction nozzle 5 are communicated, The double connector 4 and the suction nozzle 5 are communicated, the pesticide spraying structure 6 is composed of a gas guide pipe 60, a gas cavity ball 61, a gas flow tower 62, a pressurizing net 63, an inner oxygen bucket 64 and a pipe column 65, the gas guide pipe 60, the gas cavity ball 61, the gas flow tower 62 and the inner oxygen bucket 64 are communicated, the gas guide pipe 60, the gas cavity ball 61, the gas flow tower 62, the pressurizing net 63, the inner oxygen bucket 64 and the pipe column 65 are positioned on the same axis, the gas guide pipe 60 in a spiral structure is engaged with the gas cavity ball 61 in a circular structure, the gas cavity ball 61 in the circular structure is nested with the gas flow tower 62 in a conical structure, the spraying structure 66 is installed at the joint of the gas cavity ball 61 and the gas flow tower 62, the gas flow tower 62 is arranged in the middle of the pressurizing net 63 and the inner oxygen bucket 64 and is buckled with the pipe column 65 in a cylindrical structure, the inner oxygen bucket 64 and the pipe column 65 are formed into a Y-shaped structure, and the joint of the inner, the air duct 60 adopts a spiral design, shortens the length, and solves the problems that atomized particles are large, most inhaled medicine particles are deposited on upper respiratory tracts such as oral cavities and throats, and the medicine liquid is easy to form water drops to be hung on the wall of the inner cavity, so that the medicine liquid is in large demand and is wasted. The spraying structure 66 comprises an air guide structure 660, a middle guide frame 661, a ring cover 662, a piston ring 663 and a locking frame 664, the air guide structure 660 is movably connected with the middle guide frame 661 through the ring cover 662, the piston ring 663 is fixedly connected and locked with the locking frame 664 through the ring cover 662, the air guide structure 660, the middle guide frame 661, the ring cover 662, the piston ring 663 and the locking frame 664 are positioned on the same axis, a hollow structure is added during spraying air guide, the problem that the spraying pressure is overlarge due to negative pressure generated by high-speed airflow formed by a compressed air pipe orifice is solved, the atomizing structure 67 comprises an electrode ring 670, an insulating ring 671, a thread sealing structure 672, a ceramic seat 673, a heating plate 674 and an atomizing sleeve 675, the electrode ring 670, the insulating ring 671, the thread sealing structure 672, the ceramic seat 673 and the atomizing sleeve 675 are positioned in concentric circles, the electrode ring 670 penetrates through the insulating ring 671, the insulating ring 671 is positioned in the middle part of the electrode, the upper end of the electrode ring 670 is engaged with the thread sealing structure 672, the insulating ring 671 is arranged in the inner cavity of the thread sealing structure 672, the ceramic seat 673 is connected with the thread sealing structure 672 through an atomizing sleeve 675, the heating plate 674 is arranged in the ceramic seat 673, a locking frame 664 is arranged at the joint of the air cavity ball 61 and the airflow tower frame 62, the atomizing sleeve 675 is arranged at the joint of the inner oxygen bucket 64 and the pipe column 65, the power supply transmission is utilized to realize the atomizing of the liquid spray, the atomized particles are thinner and are not easy to generate the phenomenon of oxygen deficiency and cough when the patient uses the device, the device can be deeply treated by the lower respiratory tract, the air guide structure 660 comprises an air guide rod 6600, an air guide column 6601 and an air guide turntable 6602, the air guide rod 661 penetrates through the air guide column 662, the air guide column 662 is positioned at one half of the air guide rod 6600, the air guide column 6601 is electrically connected with the air guide turntable 66, the air guide rotary disc 6602 realizes rotation to buffer air flow, the operation is more stable, the middle guide frame 661 comprises a guide port pillar 6610, a ladder seat 6611 and a fixed support block 6612, the guide port pillar 6610 is provided with a pair, the guide port pillar 6610 is fixedly connected with the upper end surface of the ladder seat 6611 which is a ladder structure through the fixed support block 6612, high-speed air flows through the guide port pillar 6610, the generated negative pressure makes the injection pressure be overlarge, the fixed support block 6612 reinforces the electrode, the electrode ring 670 comprises an upper ring panel 6700, an electrode column 6701 and a friction ring 6702, the electrode column 6701 penetrates through the friction ring 6702, the upper end of the electrode column 6701 is welded on the lower surface of the upper ring panel 6700, the upper ring panel 6700 and the friction ring 6702 form a T-shaped structure, the upper ring panel 6700 and the friction ring 6702 are fixed during electric connection, the whole body is firm and can not shake, the double-position safety during use is improved, the screw thread sealing structure, The spring column 6720, the sealing plate 6721 and the toothed ring 6722 form an inverted cross structure, the spring column 6720, the sealing plate 6721 and the toothed ring 6722 are in concentric circles, the spring column 6720 and the toothed ring 6722 are respectively welded on the upper surface and the lower surface of the sealing plate 6721, the middle part of the atomizing structure 67 is designed in an elastic mode, sealing is firmer, and use is safer.
The spraying structure 66 is a tool for spraying and scattering the solution in a mist or spray form; example (c): spraying pesticide, and sprinkling the liquid medicine for dispersing or spreading.
When the medicine bottle is used, the medicine cover 2 is opened, then the medicine is placed in the medicine bottle 1, the medicine bottle 1 is held by hand after the power supply is connected, the suction nozzle 5 is aligned to the mouth part, the edge of the suction nozzle 5 is attached to the face, and the button of the medicine bottle 1 is pressed to spray the medicine. Use the atomizing to spout the medicine device like medical department of breathing, handheld medicament bottle, spout aim at the oral area and spout the medicine.
The invention solves the problem that the long-length medicine particles in the prior art are deposited on the upper respiratory tract such as the oral cavity, the throat and the like, cannot go deep into the lower respiratory tract for treatment, and are easy to generate the phenomena of oxygen deficiency, cough choking and the like due to overlarge injection pressure, the invention can achieve the aims that after the medicine cover 2 is opened, the air duct 60, the air cavity ball 61 and the airflow tower frame 62 are respectively separated from the pressurizing net 63, the internal oxygen hopper 64 and the tubular column 65, then the medicine is placed on the pressurizing net 63 and flows into the tubular column 65, then the air duct 60, the air cavity ball 61 and the airflow tower frame 62 are placed, when in spraying, the liquid flows upwards to the air cavity ball 61, then flows backwards to the atomizing structure 67 to spray liquid and atomize by using power supply transmission, is guided out by the air duct 60, and then enters the oral cavity after. The problems that medicine particles with overlong spray pipes are deposited on the upper respiratory tract such as the oral cavity, the throat and the like and cannot penetrate into the lower respiratory tract are solved, and the phenomena of oxygen deficiency, choking cough and the like caused by overlarge spray pressure are relieved, and the method is as follows:
the diameter of the medicament bottle 1 is larger than that of the medicament cover 2, the inner ring side of the suction nozzle joint 3 is meshed with the front end of the medicament cover 2, the suction nozzle joint 3 is arranged above the front end of the medicament bottle 1, the suction nozzle 5 is of an oil leakage structure, the suction nozzle joint 3 is fixedly connected with the suction nozzle 5 through a double connector 4, the double connector 4 is embedded on the inner ring side of the suction nozzle 5 and is buckled on the front end face of the suction nozzle joint 3, the medicament bottle 1, the medicament cover 2, the suction nozzle joint 3, the double connector 4 and the suction nozzle 5 form a 7-shaped structure, the medicament bottle 1, the medicament cover 2, the suction nozzle joint 3, the double connector 4 and the suction nozzle 5 are communicated with each other, the pesticide spraying structure 6 is arranged inside the medicament bottle 1 and is communicated with the suction nozzle joint 3, the double connector 4 and the suction nozzle 5, the pesticide spraying structure 6 is composed of a gas guide pipe 60, a gas cavity ball 61, a gas flow tower 62, a pressurizing, The air duct 60, the air chamber ball 61, the air flow tower frame 62 and the inner oxygen bucket 64 are communicated with each other, the air duct 60, the air chamber ball 61, the air flow tower frame 62, the pressurizing net 63, the inner oxygen bucket 64 and the tubular column 65 are positioned on the same axis, the air duct 60 in a spiral structure is meshed with the air chamber ball 61 in a circular structure, the air chamber ball 61 in a circular structure is nested in the air flow tower frame 62 in a conical structure, the spraying structure 66 is arranged at the joint of the air chamber ball 61 and the air flow tower frame 62, the air flow tower frame 62 is arranged in the middle of the pressurizing net 63 and the inner oxygen bucket 64 and is buckled with the tubular column 65 in a cylindrical structure, the inner oxygen bucket 64 and the tubular column 65 form a Y-shaped structure, the atomizing structure 67 is arranged at the joint of the inner oxygen bucket 64 and the tubular column 65, the air duct 60 adopts a spiral design and reduces the length, the problem that the atomized particles are large and most of inhaled medicine, and the medicine liquid is easy to form water drops to be hung on the inner cavity wall, so that the medicine liquid is in large demand and is wasted. The spraying structure 66 comprises an air guide structure 660, a middle guide frame 661, a ring cover 662, a piston ring 663 and a locking frame 664, the air guide structure 660 is movably connected with the middle guide frame 661 through the ring cover 662, the piston ring 663 is fixedly connected and locked with the locking frame 664 through the ring cover 662, the air guide structure 660, the middle guide frame 661, the ring cover 662, the piston ring 663 and the locking frame 664 are positioned on the same axis, a hollow structure is added during spraying air guide, the problem that the spraying pressure is overlarge due to negative pressure generated by high-speed airflow formed by a compressed air pipe orifice is solved, the atomizing structure 67 comprises an electrode ring 670, an insulating ring 671, a thread sealing structure 672, a ceramic seat 673, a heating plate 674 and an atomizing sleeve 675, the electrode ring 670, the insulating ring 671, the thread sealing structure 672, the ceramic seat 673 and the atomizing sleeve 675 are positioned in concentric circles, the electrode ring 670 penetrates through the insulating ring 671, the insulating ring 671 is positioned in the middle part of the electrode, the upper end of the electrode ring 670 is engaged with the thread sealing structure 672, the insulating ring 671 is arranged in the inner cavity of the thread sealing structure 672, the ceramic seat 673 is connected with the thread sealing structure 672 through the atomizing sleeve 675, the heating plate 674 is arranged in the ceramic seat 673, the locking frame 664 is arranged at the joint of the air cavity ball 61 and the airflow tower frame 62, the atomizing sleeve 675 is arranged at the joint of the inner oxygen bucket 64 and the pipe column 65, the liquid spraying atomization is realized by utilizing the power supply transmission, the atomized particles of a patient are thinner and are not easy to generate the oxygen deficiency phenomenon when in use, the choking phenomenon occurs, and the like, and the patient can go deep into the treatment of the lower respiratory tract.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention 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.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.