Vibration percussion type sputum remover with atomization effect and use method thereof
Technical Field
The invention belongs to the technical field of medical sputum removing equipment, and particularly relates to a vibration percussion type sputum remover with an atomization effect and a use method thereof.
Background
The medical sputum removing equipment mainly comprises an electric multifunctional negative pressure sputum aspirator and a simple manual sputum aspirator, an operating end is required to be connected with a sputum aspirator or a sponge sputum aspirator for use, a power switch and a manual switch are commonly used, sputum aspiration and oral care are performed by utilizing a negative pressure principle, the sputum aspirator is simple and easy to learn, the sputum aspirator is used for performing conventional sputum aspiration, tracheotomy and other treatments on wounded, and the sputum aspirator is suitable for army rescue medical treatment and timely sputum aspiration treatment when respiratory mucus or vomiting are carried out in hospitals or households.
The existing medical sputum remover is mainly large-scale sputum suction equipment, does not have an atomization effect, is easy to damage the respiratory tract of a human body in the use process, is uncomfortable in breathing feeling of a therapist in the use process and poor in use effect, and therefore, the vibration percussive sputum remover with the atomization effect and the use method thereof are provided.
Disclosure of Invention
The invention aims to provide a vibrating and tapping type sputum remover with an atomization effect and a using method thereof, so as to solve the problems in the prior art.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a vibration beating type sputum removing device with atomizing effect, includes vibration beating device base member, be provided with vibration beating subassembly on the vibration beating device base member, be provided with the gas transmission subassembly on the vibration beating subassembly, be provided with on the gas transmission subassembly and be used for adjusting the vibration beating subassembly amplitude regulation subassembly, be connected with the atomizing cup that is used for atomizing the liquid medicine on the gas transmission subassembly;
the vibration beating component is communicated with an external air source through an air inlet pipeline, generates vibration in the process of exhalation and inhalation of a user, and transmits the vibration into the bronchus of the respiratory tract of the user through the air transmission component;
the atomizing cup is communicated with an external air source through an air inlet pipeline and is used for atomizing the liquid medicine, and the atomized liquid medicine is transmitted into the respiratory tract bronchus of a user through the air transmission assembly;
The gas transmission assembly is used for transmitting oscillation generated by the vibration beating assembly and the liquid medicine atomized by the atomizing cup into the respiratory tract bronchus of a user together so as to achieve the purpose of removing endocrine matters in the respiratory tract bronchus of the user.
Preferably, the vibration tapper base body comprises a handheld grab handle used for installing the vibration tapper component, and the vibration tapper component comprises an air inlet seat installed on the handheld grab handle, a vibrating membrane installed on the air inlet seat and a vibrating membrane seat arranged on the vibrating membrane;
the vibrating diaphragm is provided with a groove for placing the vibrating diaphragm seat, the middle part of the groove is provided with a clamping seat, and the middle part of the vibrating diaphragm seat is provided with a bayonet matched with the clamping seat;
The air inlet pipe is provided with a percussion device air inlet pipe connected with the air inlet joint, and the percussion device air inlet pipe is connected with an air source air inlet pipe communicated with an external air source through a Y-shaped tee joint;
the middle part of the air inlet seat is provided with an air vent, and the air vent is used for transmitting an air source entering through the air inlet joint to the vibrating diaphragm through the bottom cavity of the air inlet seat so as to enable the vibrating diaphragm seat on the vibrating diaphragm to oscillate.
Preferably, the gas transmission assembly comprises a gas outlet seat covered on the vibration tapping assembly and a gas transmission channel communicated with the gas outlet seat;
The other end of the gas transmission channel is provided with a gas outlet interface;
The air outlet seat is provided with a notch matched with the air inlet joint, and the air outlet seat is in sealing connection with the air inlet seat.
Preferably, the amplitude adjusting component comprises an amplitude adjusting knob which is arranged on the air outlet seat in a threaded manner and an amplitude spring which is arranged on the vibrating membrane seat, and the amplitude spring is clamped on the clamping seat;
an internal thread pipe in threaded connection with the amplitude adjusting knob is arranged on the air outlet seat;
The upper end of the amplitude spring is provided with a spring seat which is arranged in a clamping hole in the middle of the lower part of the amplitude adjusting knob;
the internal thread pipe is sleeved with a locking clamp for locking the amplitude adjusting knob.
Preferably, the atomizing cup comprises a dosing kettle body and a spraying top cover clamped with the dosing kettle body, and the spraying top cover is arranged at the lower end of the gas transmission channel and is communicated with the gas transmission channel;
An air inlet pipe penetrating through the bottom of the dosing kettle body is arranged in the dosing kettle body, an air inlet hole is formed in the top end of the air inlet pipe, an air return spray pipe covered on the air inlet pipe is arranged in the dosing kettle body, and a bump in a circular array is arranged at the bottom end of the air return spray pipe;
An air return cavity is formed between the air inlet pipe and the air return spray pipe, and the bottom end of the air return spray pipe and the bottom of the medicine adding kettle body form an air outlet through a lug;
the bottom of the air inlet pipe is connected with an external air source through an air inlet pipeline, the air inlet pipeline is communicated with an atomizing cup air inlet pipe communicated with the air inlet pipe through a Y-shaped tee joint, the external air source is communicated with the atomizing cup air inlet pipe through the air source air inlet pipe and the atomizing cup air inlet pipe to ventilate in the atomizing cup, then the air source enters an air return inner cavity through the air inlet pipe and the air inlet hole, and then is discharged from the air outlet, so that liquid medicine in the medicine adding kettle boils to generate spray.
Preferably, a clamping block is arranged on the outer side of the upper part of the dosing kettle body, an inlet groove is formed in the lower part of the spray top cover at the position corresponding to the clamping block, and a rotary clamping groove communicated with the inlet groove is formed in the inner side wall of the spray top cover;
the inlet groove and the rotating clamping groove are matched with the clamping block.
Preferably, a clamping tube is arranged on the gas transmission channel near the lower end of the gas outlet interface, and the clamping tube is communicated with the gas transmission channel;
the upper end of the spray top cover is provided with an embedded pipe which is communicated with the interior of the spray top cover;
The clamping tube is a conical tube with a large upper part and a small lower part, the embedded tube is a conical tube with a large upper part and a large lower part, the embedded tube is matched with the conical degree of the clamping tube, and the embedded tube is embedded into the clamping tube.
Preferably, a clamping strip is arranged on the outer side of the clamping tube, and the clamping strip is of a strip structure with the same upper and lower parts;
the outer side of the clamping tube is sleeved with a water receiving box, the middle part of the water receiving box is provided with a clamping ring, the inner side wall of the clamping ring is provided with a clamping groove at the position corresponding to the clamping strip, and the water receiving box is clamped into the clamping strip through the clamping groove to be spliced with the clamping tube;
The utility model discloses a water collecting box, including the interface of giving vent to anger, the both sides of giving vent to anger all are provided with the water conservancy diversion passageway, just the position department that corresponds on the gas-supply passageway is provided with the defogging board, the water collecting box sets up the below of defogging board.
Preferably, the bottom end of the hand-held grab handle is provided with a base for vertically placing the vibrating and beating type sputum remover.
A using method of a vibration percussion type sputum remover with an atomization effect comprises the following steps:
S1: firstly, an air inlet pipeline is used for communicating an air inlet joint with an air inlet pipe to be connected with an external air source, a flowmeter is used for setting initial flow, then the prepared liquid medicine is poured into a medicine adding kettle body, and then the external air source is started to convey air to a sputum remover;
S2: then the air source transmits air to enter the air inlet seat from the air inlet joint through the air inlet pipeline, then blows the vibrating membrane seat on the vibrating membrane from the air vent, at the moment, a user puts the air outlet joint into the inlet, exhales and inhales through the oral cavity, and the user can make the vibrating membrane on the vibrating membrane seat generate oscillation by adjusting the air source flow in the process of exhaling and inhaling, and the oscillation enters the air transmission channel through the air outlet seat and is then transmitted into the respiratory tract bronchus of the user;
S3: meanwhile, the air inlet pipeline conveys air into the air return spray pipe from an air inlet hole at the top of the air inlet pipe, so that the air is conveyed downwards in the air return inner cavity, at the moment, the air is discharged into the dosing kettle body through an air outlet at the bottom end of the air return spray pipe, so that liquid medicine in the dosing kettle body is boiled to generate spray, the spray gradually upwards enters the air conveying channel from an embedded pipe at the upper end of the spray top cover, then the liquid medicine spray and oscillation generated by the vibrating membrane are conveyed into the respiratory tract bronchus of a user together, and secretions in the respiratory tract bronchus are removed through vibrating tapping;
S4: in the vibration process of the vibration beating component, the vibration amplitude of the vibration beating component can be regulated by using the vibration amplitude regulating component, the vibration amplitude regulating knob can be rotated clockwise, at the moment, the vibration amplitude regulating knob is spirally rotated downwards on the internal thread pipe to gradually compress the vibration amplitude spring downwards, at the moment, the vibrating diaphragm and the vibrating diaphragm seat are compressed, the vibration amplitude of the vibration beating component is gradually reduced, and similarly, the vibration amplitude regulating knob is rotated anticlockwise, and the vibration amplitude of the vibration beating component is gradually increased;
s5: in the process of using the air outlet interface to exhale and inhale by a user, the exhale mouth gas can be discharged to the defogging board from the water conservancy diversion passageway of air outlet interface both sides, and the defogging board can gather the exhale mouth gas, forms the water droplet, then drips gradually in the water receiving box.
Compared with the prior art, the invention has the beneficial effects that:
1. The invention is provided with the vibration beating component, the gas transmission component and the atomizing cup, the gas transmission component can transmit the liquid medicine spray and the oscillation generated by the vibrating membrane into the respiratory tract bronchus of a user together, and the vibration beating and the elimination of secretions in the respiratory tract bronchus are carried out, meanwhile, the invention has the atomizing effect and the sputum removing function, and the oscillation generated in the atomizing sputum removing process brings comfortable feeling to the respiratory tract of the user, so that the oral cavity and the respiratory tract of the user are not damaged, and the atomizing sputum removing effect is better;
2. The vibration damper is provided with the amplitude adjusting knob, the amplitude spring, the spring seat and the internal thread pipe, the amplitude adjusting knob can be used for adjusting the amplitude of the vibration damper in the vibration process of the vibration damper, and can be rotated clockwise, at the moment, the amplitude adjusting knob is spirally rotated downwards on the internal thread pipe to gradually compress the amplitude spring downwards, at the moment, the vibrating diaphragm and the vibrating diaphragm seat are compressed, the amplitude of the vibration damper is gradually reduced, the amplitude adjusting knob is rotated anticlockwise, the amplitude of the vibration damper is gradually increased, the amplitude frequency of the vibration damper can be adjusted, so that the bearing intensity of different users is applicable, and the use comfort of the users is further improved;
3. After the spraying device is used, the clamping block on the dosing kettle body can be rotated anticlockwise in the rotating clamping groove on the spraying top cover, then the dosing kettle body and the spraying top cover are separated by rotating the inlet groove, so that the spraying device is convenient to clean, and meanwhile, the spraying device can be directly detached and installed, and is convenient to use;
4. The pipe clamping device is provided with the clamping pipe and the embedded pipe, the embedded pipe can be directly clamped into the clamping pipe, so that the connection between the atomizing cup and the gas transmission channel is facilitated, meanwhile, the conical pipe is adopted for sealing connection, the connection tightness is improved, the installation and the disassembly are convenient, and the pipe clamping device is not easy to fall off;
5. the invention is provided with the clamping strips, the water receiving box, the clamping ring, the clamping strip grooves, the flow guide channels and the demisting plates, in the process that a user exhales and inhales through the air outlet interface, the exhaled mouth gas can be discharged to the demisting plates from the flow guide channels on two sides of the air outlet interface, the demisting plates can gather the exhaled mouth gas to form water drops, and then gradually drip into the water receiving box, so that the mouth gas ponding is conveniently collected, the water receiving box can be directly disassembled, the spray ponding in the water receiving box is conveniently cleaned, and the use convenience is improved.
Drawings
FIG. 1 is a schematic overall perspective view of the present invention;
FIG. 2 is a schematic perspective view of the present invention;
FIG. 3 is a schematic perspective view of an air intake pipe according to the present invention;
FIG. 4 is a schematic perspective view of the present invention;
FIG. 5 is an exploded perspective view of the vibratory tapping assembly, gas delivery assembly, and amplitude adjustment assembly of the present invention;
FIG. 6 is a schematic perspective view of a vibratory tapping assembly of the present invention;
FIG. 7 is a schematic cross-sectional perspective view of the present invention;
FIG. 8 is a schematic cross-sectional perspective view of the present invention;
FIG. 9 is a schematic perspective view of an atomizing cup according to the present invention;
FIG. 10 is a schematic cross-sectional perspective view of an atomizing cup of the present invention;
FIG. 11 is a schematic perspective view of a spray cap of the present invention;
FIG. 12 is a schematic perspective view of the return air nozzle of the present invention;
Fig. 13 is a schematic perspective view of the drug adding kettle body of the present invention.
In the figure: 1. a vibrating beater base; 101. a hand-held grab handle; 2. a vibratory tapping assembly; 201. an air inlet seat; 202. a vibrating membrane; 2021. a groove; 2022. a clamping seat; 203. a vibrating membrane seat; 2031. a bayonet; 204. an air inlet joint; 205. a vent; 3. a gas delivery assembly; 301. an air outlet seat; 302. a gas transmission channel; 303. an air outlet interface; 304. a notch; 305. an internally threaded tube; 306. clamping a pipe; 307. clamping strips; 308. a diversion channel; 309. a defogging plate; 4. an amplitude adjustment assembly; 401. an amplitude adjusting knob; 402. an amplitude spring; 403. a spring seat; 404. locking a card; 5. An atomizing cup; 501. a medicine adding kettle body; 5011. a clamping block; 502. a spray cap; 5021. an inlet slot; 5022. rotating the clamping groove; 503. an air inlet pipe; 504. a return air spray pipe; 505. an air inlet hole; 506. a bump; 507. embedding a pipe; 6. a water receiving box; 601. a collar; 602. a clamping strip groove; 7. a base; 8. an air intake line; 801. an air source air inlet pipe; 802. y-shaped tee joint; 803. the air inlet pipe of the percussion device; 804. an air inlet pipe of the atomizing cup.
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.
Referring to fig. 1-13, the vibration percussion sputum remover with atomization effect provided by the invention comprises a vibration percussion device base body 1, wherein a vibration percussion assembly 2 is arranged on the vibration percussion device base body 1, a gas transmission assembly 3 is arranged on the vibration percussion assembly 2, an amplitude adjusting assembly 4 for adjusting the amplitude of the vibration percussion assembly 2 is arranged on the gas transmission assembly 3, and an atomization cup 5 for atomizing liquid medicine is connected to the gas transmission assembly 3;
The vibration beating component 2 is communicated with an external air source through an air inlet pipeline 8, generates vibration in the process of exhalation and inhalation of a user, and transmits the vibration into the bronchus of the respiratory tract of the user through the air transmission component 3;
The atomizing cup 5 is communicated with an external air source through an air inlet pipeline 8 and is used for atomizing the liquid medicine, and the atomized liquid medicine is transmitted into the respiratory tract bronchus of a user through the air transmission assembly 3;
The air delivery component 3 is used for delivering the oscillation generated by the vibration beating component 2 and the liquid medicine atomized by the atomizing cup 5 into the respiratory tract bronchus of a user together so as to achieve the aim of removing endocrine matters in the respiratory tract bronchus of the user;
The invention is provided with the vibration beating component 2, the gas transmission component 3 and the atomizing cup 5, the gas transmission component 3 can transmit the liquid medicine spray and the oscillation generated by the vibrating membrane 202 into the respiratory tract bronchus of a user together to perform vibration beating and clearing on secretions in the respiratory tract bronchus, and meanwhile, the invention has the atomizing effect and the sputum removing function, and the oscillation generated in the atomizing sputum removing process brings comfortable feeling to the respiratory tract of the user, does not damage the oral cavity and the respiratory tract of the user, and has better atomizing sputum removing effect.
In the present embodiment, as shown in fig. 1,2, 3, 6, 7 and 8, the vibratory tap body 1 includes a hand grip 101 for mounting a vibratory tap assembly 2, and the vibratory tap assembly 2 includes an air intake seat 201 mounted on the hand grip 101, a diaphragm 202 mounted on the air intake seat 201, and a diaphragm seat 203 provided on the diaphragm 202;
A groove 2021 for placing the vibrating membrane seat 203 is formed in the vibrating membrane 202, a clamping seat 2022 is arranged in the middle of the groove 2021, and a bayonet 2031 matched with the clamping seat 2022 is formed in the middle of the vibrating membrane seat 203;
An air inlet joint 204 connected with an air inlet pipeline 8 is arranged on the outer side of the air inlet seat 201, a tapper air inlet pipe 803 connected with the air inlet joint 204 is arranged on the air inlet pipeline 8, and the tapper air inlet pipe 803 is connected with an air source air inlet pipe 801 communicated with an external air source through a Y-shaped tee 802;
The middle part of the air inlet seat 201 is provided with an air vent 205, and the air vent 205 is used for transmitting an air source entering through the air inlet joint 204 to the vibrating membrane 202 through the bottom cavity of the air inlet seat 201 so as to enable the vibrating membrane seat 203 on the vibrating membrane 202 to oscillate;
In use, the air source delivers air from the air inlet joint 204 into the air inlet seat 201 through the air inlet pipeline 8, then blows the vibrating membrane seat 203 on the vibrating membrane 202 through the air vent 205, at this time, the user puts the air outlet joint 303 into the mouth, exhales and inhales through the oral cavity, the user can make the vibrating membrane 203 on the vibrating membrane seat 202 vibrate by adjusting the air source flow in the process of exhaling and inhaling, and the vibration enters the air delivery channel 302 through the air outlet seat 301 and then is delivered into the respiratory tract bronchus of the user.
In this embodiment, as shown in fig. 5, the gas delivery assembly 3 includes a gas outlet seat 301 covering the vibration tapping assembly 2 and a gas delivery passage 302 communicating with the gas outlet seat 301;
The other end of the gas transmission channel 302 is provided with a gas outlet interface 303;
The notch 304 matched with the air inlet connector 204 is formed in the air outlet seat 301, the air outlet seat 301 is in sealing connection with the air inlet seat 201, and the connection tightness of the vibration tapping assembly 2 and the air transmission assembly 3 is improved.
In this embodiment, as shown in fig. 4-8, the amplitude adjusting assembly 4 includes an amplitude adjusting knob 401 screwed on the air outlet seat 301 and an amplitude spring 402 mounted on the diaphragm seat 203, the amplitude spring 402 being clamped on the clamping seat 2022;
the air outlet seat 301 is provided with an internal thread pipe 305 in threaded connection with an amplitude adjusting knob 401;
The upper end of the amplitude spring 402 is provided with a spring seat 403, and the spring seat 403 is arranged in a clamping hole in the middle of the lower part of the amplitude adjusting knob 401;
A locking clamp 404 for locking the amplitude adjusting knob 401 is sleeved on the internal threaded pipe 305;
The vibration damper is provided with the amplitude adjusting knob 401, the amplitude spring 402, the spring seat 403 and the internal thread pipe 305, in the vibration process of the vibration damper assembly 2, the amplitude adjusting knob 401 can be rotated clockwise by using the amplitude adjusting assembly 4 to adjust the amplitude of the vibration damper assembly 2, at the moment, the amplitude adjusting knob 401 is rotated downwards on the internal thread pipe 305 in a spiral manner to gradually compress the amplitude spring 402 downwards, at the moment, the vibrating diaphragm 202 and the vibrating diaphragm seat 203 are compressed, the amplitude of the vibration damper assembly 2 is gradually reduced, the amplitude adjusting knob 401 is rotated anticlockwise in the same way, the amplitude of the vibration damper assembly 2 is gradually increased, and the amplitude frequency of the vibration damper assembly 2 can be adjusted, so that the vibration damper assembly is suitable for bearing strength of different users and is in the most comfortable sense.
In this embodiment, as shown in fig. 9-13, the atomizing cup 5 includes a dosing kettle body 501 and a spray header 502 clamped with the dosing kettle body 501, and the spray header 502 is installed at the lower end of the gas transmission channel 302 and is communicated with the gas transmission channel 302;
An air inlet pipe 503 penetrating through the bottom of the medicine adding kettle body 501 is arranged in the medicine adding kettle body 501, an air inlet hole 505 is formed in the top end of the air inlet pipe 503, an air return spray pipe 504 covered on the air inlet pipe 503 is arranged in the medicine adding kettle body 501, and a bump 506 in a circular array is arranged at the bottom end of the air return spray pipe 504;
an air return cavity is formed between the air inlet pipe 503 and the air return spray pipe 504, and the bottom end of the air return spray pipe 504 and the bottom of the medicine adding kettle body 501 form an air outlet through a convex block 506;
The bottom end of the air inlet pipe 503 is connected with an external air source through an air inlet pipeline 8, an atomizing cup air inlet pipe 804 communicated with the air inlet pipe 503 is communicated with the air inlet pipeline 8 through a Y-shaped tee joint 802, the external air source is ventilated into the atomizing cup 5 through the air source air inlet pipe 801 and the atomizing cup air inlet pipe 804, then the air source enters an air return inner cavity through the air inlet pipe 503 and the air inlet hole 505, and then is discharged from an air outlet, so that the liquid medicine in the medicine adding kettle body 501 boils to generate spray;
when the device is used, the air inlet pipeline 8 conveys air to enter the air return spray pipe 504 from the air inlet hole 505 at the top of the air inlet pipe 503, so that the air is conveyed downwards in the air return cavity, and is discharged into the dosing kettle body 501 through the air outlet at the bottom end of the air return spray pipe 504, so that liquid medicine in the dosing kettle body 501 is boiled to generate spray, the spray gradually upwards enters the air conveying channel 302 from the embedded pipe 507 at the upper end of the spray top cover 502, and then the liquid medicine spray and oscillation generated by the vibrating membrane 203 are conveyed into the respiratory tract bronchus of a user together, so as to perform vibration tapping and cleaning on secretion in the respiratory tract bronchus.
In this embodiment, as shown in fig. 11 and 13, a clamping block 5011 is provided on the outer side of the upper portion of the dosing kettle body 501, an inlet groove 5021 is provided at the position of the lower portion of the spray header 502 corresponding to the clamping block 5011, and a rotating clamping groove 5022 communicating with the inlet groove 5021 is provided on the inner side wall of the spray header 502;
The inlet groove 5021 and the rotating clamping groove 5022 are matched with the clamping block 5011;
After the dosing kettle is used, the clamping block 5011 on the dosing kettle body 501 can be rotated anticlockwise in the rotating clamping groove 5022 on the spraying top cover 502, then the dosing kettle body 501 and the spraying top cover 502 are separated by rotating the position of the inlet groove 5021, so that the dosing kettle is convenient to clean, and meanwhile, the dosing kettle can be directly detached and installed, and is convenient to use.
In this embodiment, as shown in fig. 8-10, a clamping tube 306 is disposed on the gas transmission channel 302 near the lower end of the gas outlet interface 303, and the clamping tube 306 is communicated with the gas transmission channel 302;
The upper end of the spray header 502 is provided with a tube embedding 507, and the tube embedding 507 is communicated with the inside of the spray header 502;
The clamping tube 306 is a conical tube with a large upper part and a small lower part, the embedded tube 507 is a conical tube with a large upper part and a large lower part, the embedded tube 507 is matched with the taper of the clamping tube 306, and the embedded tube 507 is embedded into the clamping tube 306;
The invention is provided with the clamping tube 306 and the embedded tube 507, and the embedded tube 507 can be directly clamped into the clamping tube 306, so that the connection between the atomizing assembly 5 and the gas transmission channel 302 is facilitated, and meanwhile, the conical tube is adopted for sealing connection, so that the connection tightness is improved, the installation and the disassembly are convenient, and the connection is not easy to fall off.
In this embodiment, as shown in fig. 2, 4 and 5, a clamping strip 307 is arranged on the outer side of the clamping tube 306, and the clamping strip 307 is a strip structure with the same height;
The outer side of the clamping tube 306 is sleeved with a water receiving box 6, the middle part of the water receiving box 6 is provided with a clamping ring 601, the inner side wall of the clamping ring 601 is provided with a clamping strip groove 602 at the position corresponding to the clamping strip 307, and the water receiving box 6 is clamped into the clamping strip 307 through the clamping strip groove 602 to be spliced with the clamping tube 306;
Both sides of the air outlet interface 303 are provided with flow guide channels 308, a demisting plate 309 is arranged on the air transmission channel 302 at a position corresponding to the flow guide channels 308, and the water receiving box 6 is arranged below the demisting plate 309;
The invention is provided with the clamping strips 307, the water receiving box 6, the clamping ring 601, the clamping strip grooves 602, the diversion channels 308 and the demisting plates 309, in the process of exhalation and inhalation of a user using the air outlet interface 303, the exhaled mouth gas can be discharged to the demisting plates 309 from the diversion channels 308 on two sides of the air outlet interface 303, the demisting plates 309 can gather the exhaled mouth gas to form water drops, and then the water drops gradually drop into the water receiving box 6, so that the spray ponding can be conveniently collected, the water receiving box 6 can be directly disassembled, the spray ponding in the water receiving box 6 can be conveniently cleaned, and the use convenience is improved.
In the present embodiment, as shown in fig. 1 and 2, the bottom end of the hand-held grip 101 is provided with a base 7 for vertically placing the vibrating click-type sputum remover.
The invention provides a use method of a vibration percussion type sputum remover with an atomization effect, which comprises the following steps:
S1: firstly, an air inlet pipeline 8 is used for communicating an air inlet joint 204 with an air inlet pipe 503 to be externally connected with an air source, an initial flow is set by a flowmeter, then the prepared liquid medicine is poured into a medicine adding kettle body 501, and then the externally connected air source is started to convey air to a sputum remover, and in the process, the vibration beating component 2 and the atomization component 5 are synchronously carried out;
S2: then the air source transmits air from the air inlet joint 204 into the air inlet seat 201 through the air inlet pipeline 8, then the air blows the vibrating membrane seat 203 on the vibrating membrane 202 from the air vent 205, at the moment, the user puts the air outlet joint 303 into the mouth and exhales and inhales through the oral cavity, the user adjusts the air source flow in the process of exhaling and inhaling, so that the vibrating membrane 203 on the vibrating membrane seat 202 oscillates, and the oscillation enters the air transmission channel 302 through the air outlet seat 301 and is then transmitted into the respiratory tract bronchus of the user;
S3: simultaneously, the air inlet pipeline 8 conveys air to enter the air return spray pipe 504 from the air inlet hole 505 at the top of the air inlet pipe 503, so that the air is conveyed downwards in the air return cavity, and is discharged into the dosing kettle body 501 through the air outlet at the bottom end of the air return spray pipe 504, so that liquid medicine in the dosing kettle body 501 is boiled to generate spray, the spray gradually upwards enters the air conveying channel 302 from the embedded pipe 507 at the upper end of the spray top cover 502, and then the liquid medicine spray and oscillation generated by the vibrating membrane 203 are conveyed into the respiratory tract bronchus of a user together, so that secretion in the respiratory tract bronchus is removed by vibrating and knocking;
S4: during the vibration process of the vibration beating component 2, the vibration amplitude adjusting component 4 can be used for adjusting the vibration amplitude of the vibration beating component 2, the vibration amplitude adjusting knob 401 can be rotated clockwise, at the moment, the vibration amplitude adjusting knob 401 is spirally rotated downwards on the inner threaded pipe 305 to gradually compress the vibration amplitude spring 402 downwards, at the moment, the vibration membrane 202 and the vibration membrane seat 203 are compressed, the vibration amplitude of the vibration beating component 2 is gradually reduced, and the vibration amplitude adjusting knob 401 is rotated anticlockwise, so that the vibration amplitude of the vibration beating component 2 is gradually increased;
S5: during exhalation and inhalation of the user using the outlet port 303, the exhaled breath is discharged from the flow guide channels 308 on both sides of the outlet port 303 to the demister plate 309, and the demister plate 309 gathers the exhaled breath to form water droplets, which then gradually drop into the water receiving box 6.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.