CN117653835B - Respiratory tract treatment atomizer - Google Patents

Abstract

The invention provides a respiratory tract treatment atomizer, which relates to the field of atomizers and comprises an atomizer and a child seat, wherein the atomizer consists of a base and a shell, an ultrasonic generator is arranged in the base, the base is arranged below the shell, an upper cover is buckled on the shell, a connecting port is arranged on the upper cover, an atomizing pipe is arranged on the connecting port, an atomizing box is arranged in the shell, an acoustically transparent film is arranged at the bottom of the atomizing box, the connecting port is connected with a fog drop outlet on the atomizing box, the cross section of the shell is circular, two atomizing boxes are arranged in the shell, the cross section of the atomizing box is semicircular, the two atomizing boxes are combined into a circle, a box cover is arranged on the atomizing box, a fog drop outlet is arranged on the box cover, the fog drop outlets on the two atomizing boxes are different in shape, and the atomizing pipe is divided into an inner pipe and an outer pipe, and the beneficial effects of the invention are that: the two liquid medicine boxes are driven to rotate through the rotary positioning ring, so that different fog drop discharge ports of the liquid medicine boxes are connected with the connecting ports.

Description

Respiratory tract treatment atomizer

Technical Field

The invention relates to the field of atomizers, in particular to a respiratory tract treatment atomizer.

Background

The atomizer that treatment respiratory tract used at present, especially for children's treatment respiratory tract used, can only add the atomizer equipment of a liquid medicine when all being at every turn, every turn children need change medicine, need change atomizing tank and atomizing pipe etc. again, use very inconveniently, and children often do not have the patience, wait for the in-process of changing medicine can produce the phenomenon of dysphoria, retrieve the publication number now and be CN109646771A, an atomizer for paediatrics respiratory tract treatment, pour into the liquid medicine through the feed liquor pipe, then utilize the electro-magnet circular telegram to produce the magnetic field, because electro-magnet magnetic field and rubidium magnet magnetic field opposite direction, rubidium magnet can promote the telescopic link and upwards remove in flexible pipe, can make the telescopic link reciprocate in flexible pipe, the ultrasonic device on telescopic link top can reciprocate in the pharmaceutical solution, can stir the air in the atomizing case, be convenient for the fog fill absorbs the medicament after atomizing, utilize the through-hole of seting on flexible pipe to carry out the effect of extrusion suction to the pharmaceutical solution, stir the pharmaceutical solution, make it heat the incasement, the solution is more even, and flow when the state is better atomizing, the therapeutic effect has been improved.

However, in the above-mentioned technique, the liquid medicine is injected through the liquid inlet pipe or only one liquid medicine can be used once, and the time and effort are wasted when the liquid medicine is replaced, and the medical staff is required to operate in person, and under the condition of shortage of medical resources at the present stage, the condition of insufficient medical resources is easily caused.

Disclosure of Invention

The invention aims to solve the problem that the liquid medicine and the atomizing pipe are inconvenient to replace and clean.

In order to achieve the above purpose, the technical scheme includes that the respiratory tract treatment atomizer comprises an atomizer and a child seat, the atomizer consists of a base and a shell, an ultrasonic generator is arranged in the base, the base is arranged below the shell, an upper cover is buckled on the shell, a connecting port is arranged on the upper cover, an atomizing pipe is arranged on the connecting port, an atomizing box is arranged in the shell, an acoustic membrane is arranged at the bottom of the atomizing box, the connecting port is connected with a mist outlet on the atomizing box, the cross section of the shell is circular, two atomizing boxes are arranged in the shell, the cross section of the atomizing box is semicircular, the two atomizing boxes are combined into a circular shape, a box cover is arranged on the atomizing box, a mist outlet is arranged on the box cover, the mist outlets on the two atomizing boxes are different in shape, the atomizing pipe is divided into an inner pipe and an outer pipe, mist droplets discharged from the mist outlet in different shapes can be respectively sent into the inner pipe or the outer pipe, a shielding assembly is further arranged on the atomizing pipe, and the opening or closing of the inner pipe can be controlled through the shielding assembly.

More preferably, the shell is internally provided with a limiting ring, and the limiting ring is provided with a positioning groove.

More preferably, a rotary positioning ring is arranged above the limiting ring, a positioning protrusion is arranged on the lower surface of the rotary positioning ring, and a limiting opening is arranged on the shell.

More preferably, a notch is arranged in the limit strip opening, a stirring sheet is also arranged in the limit strip opening, and the stirring sheet is detachably connected with the rotary positioning ring.

More preferably, the mist droplet discharge opening on the cartridge cover is divided into an annular discharge opening and a circular discharge opening, the annular discharge opening can be connected with the outer tube, and the circular discharge opening can be connected with the inner tube.

More preferably, the shielding assembly comprises an outer ring and an inner ring, the outer ring and the inner ring are further provided with accommodating chambers, elastic shielding sheets are arranged in the accommodating chambers, and limiting slide ways are arranged on the outer ring and the inner ring.

More preferably, a stretching plate is arranged in the limiting slide way, the stretching plate is connected with the elastic shielding piece, the stretching plate is also connected with a control rod, a deflector rod channel is arranged on the outer ring, and the control rod is arranged in the deflector rod channel.

More preferably, the child seat is provided with a height adjusting plate, the height adjusting plate is provided with a shoulder positioning plate, the child seat is also provided with an auxiliary backrest, the auxiliary backrest is provided with an auxiliary strip opening, an eccentric wheel and an auxiliary push plate are arranged in the auxiliary backrest, and the auxiliary push plate can extend out from the auxiliary strip opening.

Compared with the prior art, the invention has the beneficial effects that: the two liquid medicine boxes are driven to rotate through the rotary positioning ring, so that different fog drop discharge ports of the two liquid medicine boxes are connected with the connecting ports, and as the atomizing pipe is divided into the inner pipe and the outer pipe, fog drops can respectively enter different pipelines, the liquid medicine can be replaced without replacing the atomizing pipe and the atomizing box, and as the rotary positioning ring and the limiting ring are arranged and the shielding component is arranged, the liquid medicine replacing process and the liquid medicine replacing process can be very fast and convenient, the operation is simple, even if no accompanying medical staff is needed, the medical staff is not needed to operate, parents can also operate by hands to help children to complete the liquid medicine replacing process;

and in order to avoid air supply arrangement to the breathing formation burden of children, do not set up air supply arrangement in the atomizer, but for better messenger's children's cooperation inhale the droplet, set up supplementary back in the atomizer, through the cooperation use of supplementary push pedal and shoulder locating plate in the supplementary back, can make children do the chest expansion motion, supplementary children breathe, under the circumstances that does not have air supply arrangement, can not form the burden to children's breathing to the droplet that the inhalation liquid medicine that also can be better formed.

Drawings

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

FIG. 2 is a schematic view of the structure of the upper cover of the present invention;

FIG. 3 is a schematic view of the structure of the mist outlet opening of the present invention;

FIG. 4 is a schematic view of an atomizing tube according to the present invention;

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

FIG. 6 is a schematic view of a limiting strip port structure according to the present invention;

FIG. 7 is a schematic view of the housing structure of the present invention;

FIG. 8 is a schematic view of a stop collar according to the present invention;

FIG. 9 is a schematic view of the eccentric wheel structure of the present invention;

FIG. 10 is a schematic view of the structure of the accommodating chamber of the present invention;

FIG. 11 is a schematic view of a lever channel structure of the present invention;

FIG. 12 is a schematic view of an arcuate slot structure of the present invention;

FIG. 13 is a schematic view of an auxiliary strip port structure according to the present invention;

FIG. 14 is a schematic diagram of a cold water tank according to the present invention;

the device comprises a 1-shell, a 2-upper cover, a 3-base, a 4-cold water tank, a 5-high frequency vibration plate, a 6-limit ring, a 7-locating groove, an 8-locating protrusion, a 9-rotating locating ring, a 10-limit post, an 11-atomizing box, a 1101-box cover, a 1102-locating blind hole, a 12-limit strip opening, a 13-notch, a 14-mist outlet, a 1401-round outlet, a 1402-annular outlet, a 15-atomizing pipe, 1501-outer pipe, a 1502-inner pipe, a 16-connecting port, a 17-shielding assembly, a 1701-inner ring, a 1702-outer ring, a 18-containing chamber, a 19-auxiliary backrest, a 20-elastic shielding sheet, a 21-stretching plate, a 22-limit slide, a 23-control rod, a 2301-spring clamping head, a 24-deflector rod channel, a 25-shielding ring, a 26-height adjusting plate, a 27-shoulder locating plate, a 28-locating slide, a 2801-arc-shaped groove, a 2-locating plug, a 2803-plug, a 29-eccentric wheel, a 30-auxiliary push plate and a 31-auxiliary strip opening.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present invention are included in the protection scope of the present invention.

In the description of the present application, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," "front," "rear," and the like indicate an azimuth or a positional relationship based on that shown in the drawings, and are merely for convenience of description and to simplify the description, but do not indicate or imply that the apparatus or elements to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; may be a mechanical connection; may be an electrical connection; can be connected by a hydraulic oil way; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

1-14, including the atomizer, the atomizer is connected with atomizing tube 15, be connected with the face guard on the atomizing tube 15, be provided with ultrasonic generator in the atomizer, ultrasonic generator can export high frequency electric energy as the drive, ultrasonic generator includes cold water tank 4, hold cold distilled water in cold water tank 4, be provided with the brilliant energy converter in the bottom of cold water tank 4, the crystal transducer can be with ultrasonic wave sound energy with ultrasonic generator output high frequency electric energy conversion, be provided with atomizing box 11 above the brilliant energy converter, hold patient's required liquid medicine in atomizing box 11, atomizing box 11 is made for stainless steel, can avoid plastic material's atomizing box 11 to be possible to produce harmful substance in the use, cause harm to children's health, can dismantle in atomizing box 11 bottom and be connected with the sound-permeable membrane, ultrasonic wave sound energy that ultrasonic generator export permeates sound-permeable membrane makes the liquid medicine in atomizing box 11 form the droplet, then carry the droplet through atomizing tube 15 and face guard, make children inhale the therapeutic effect of fog to the respiratory tract fog.

Wherein the atomizer comprises a shell 1 and an upper cover 2, the shell 1 is a cylindrical structure with an upper end being an open end, a base 3 is arranged at the lower end of the shell 1, the shell 1 and the base 3 can be connected in a detachable mode such as a thread or a buckle, the detachable connection is more convenient to operate such as water adding during use, the subsequent cleaning process is also more convenient and rapid, an ultrasonic generator is positioned in the base 3, a cold water tank 4 is arranged on the base 3, a crystal energy converter comprises a high-frequency vibration plate 5, the high-frequency vibration plate 5 is arranged above the base 3 in a semicircular shape and is positioned at the bottom of the cold water tank 4, a limiting ring 6 is arranged on the inner side wall of the shell 1, two positioning grooves 7 are arranged on the limiting ring 6 symmetrically, the positioning grooves 7 are arc-shaped, a rotary positioning ring 9 is arranged on the limiting ring 6, the lower surface of the rotary positioning ring 9 is provided with two positioning bulges 8, the positioning bulges 8 are matched with the positioning grooves 7, the positioning bulges 8 are arc-shaped, the positioning bulges 8 are matched with the positioning grooves 7 to position the rotary positioning ring 9, the upper surface of the rotary positioning ring 9 is also provided with two limiting columns 10, the two limiting columns 10 are symmetrically arranged, the atomizing box 11 can be limited by the limiting columns 10, the atomizing box 11 is a box body with two semicircular sections, the two atomizing boxes 11 are combined together to form a circle and are arranged on the rotary positioning ring 9 in the shell 1, a positioning blind hole 1102 is arranged on the side wall of the atomizing box 11, the limiting columns 10 are inserted into the positioning blind hole 1102 to limit the atomizing box 11, when the atomizing box 11 is arranged on the rotary positioning ring 9, and the two limiting columns 10 are respectively positioned in the two positioning blind holes 1102, the atomizing box 11 can not translate, and when the rotary positioning ring 9 rotates, the atomizing box 11 can be driven to rotate along with the rotary positioning ring 9, the positioning protrusion 8 moves along with the rotary positioning ring 9, and the lower limiting ring 6 and the positioning groove 7 are fixed, so that under the action of gravity, the positioning protrusion 8 can enter the positioning groove 7, and the positioning protrusion 8 can be moved out of the positioning groove 7 due to the arc-shaped bottom surfaces of the positioning groove 7 and the positioning protrusion 8 can be controlled to be positioned in the positioning groove 7 through the rotation of the rotary positioning ring 9, if the positioning protrusion 8 on the rotary positioning ring 9 is positioned in the positioning groove 7 in the limiting ring 6, one atomizing box 11 is necessarily positioned above the high-frequency vibration plate 5 in the two atomizing boxes 11 in the shell 1, and the sound-transmitting film of the atomizing box 11 is adhered to the high-frequency vibration plate 5.

The side wall of the shell 1 is also provided with a limiting strip port 12, both ends of the limiting strip port 12 are provided with notches 13, the notches 13 are positioned above the positioning grooves 7, the limiting strip port 12 is arranged on the side wall of the shell 1 in a 180-degree semi-annular shape, a stirring piece is arranged in the limiting strip port 12, one end of the stirring piece is connected with the rotary positioning ring 9 through threaded connection or plug connection, the detachable connection is more convenient when parts need to be replaced, the stirring piece is pushed manually to move in the limiting strip port 12, so that the rotary positioning ring 9 rotates along with the stirring piece, the atomizing boxes 11 are driven to rotate together, and the two atomizing boxes 11 can be controlled to rotate in the shell 1, thereby realizing the effect of quickly replacing the atomizing boxes 11 and liquid medicine;

when the positioning bulge 8 is positioned in the positioning groove 7, the sound-transmitting membrane in the atomizing box 11 is attached to the high-frequency vibration plate 5 in the ultrasonic generator, so that the ultrasonic generator breaks up the liquid medicine in the atomizing box 11 to form fog drops, when the stirring piece is pushed by force, the rotating positioning ring 9 is driven to rotate, so that the positioning bulge 8 on the rotating positioning ring 9 is separated from the positioning groove 7, when the positioning bulge 8 is separated from the positioning groove 7, the positioning bulge 8 is positioned on the upper surface of the limiting ring 6, because the positioning bulge 8 is arc-shaped, the horizontal height of the rotating positioning ring 9 is higher than that of the positioning bulge 8 when the positioning bulge 8 is positioned in the positioning groove 7, the rotating positioning ring 9 can realize that the rotating positioning ring 9 drives the atomizing box 11 to move upwards, so that the sound-transmitting membrane in the atomizing box 11 is separated from the high-frequency vibration plate 5, and then the stirring piece is pushed continuously, the rotating positioning ring 9 is controlled to rotate along with the other atomizing box 11, the rotating to the upper part of the high-frequency vibration plate 5, and then the sound-transmitting membrane in the atomizing box 11 can be attached to the liquid medicine in the high-frequency vibration plate 11 when the positioning bulge 8 enters the positioning bulge 7.

The two atomizing boxes 11 are respectively provided with mist outlet ports 14 with different shapes, the atomizing boxes 11 are provided with box covers 1101, the box covers 1101 are buckled on the atomizing boxes 11, the box covers 1101 are provided with the mist outlet ports 14, the mist outlet ports 14 are divided into two types, one mist outlet port 14 is a circular outlet port 1401, the other mist outlet port 14 is an annular outlet port 1402, the inner diameter of the annular outlet port 1402 is equal to the diameter of the circular outlet port 1401, the lower surface of the upper cover 2 is provided with a connecting port 16, the shape of the connecting port 16 is circular, the diameter of the connecting port 16 is equal to the outer diameter of the annular outlet port 1402, the upper cover 2 penetrates through the connecting port 16 to form a connecting channel, three fixing pieces are further arranged in the connecting port 16, the atomizing pipe 15 is inserted into the connecting channel to be attached with the three fixing pieces, and when the positioning protrusion 8 is positioned in the positioning groove 7, the mist outlet port 14 on the box covers 1101 is positioned below the connecting port 16 of the upper cover 2 and is attached with the connecting port 16;

the upper cover 2 is buckled at the top end of the shell 1, the upper cover 2 is semicircular, the upper cover 2 is located right above the high-frequency vibration plate 5, when the high-frequency vibration plate 5 works to enable mist drops to form in the mist box 11, then the mist drops pass through the mist outlet 14 through air flowing, enter the mist pipe 15 through the connection port 16, the mist pipe 15 is a double-layer corrugated pipe and is divided into an outer pipe 1501 and an inner pipe 1502, the outer pipe 1501 is the same as the inner pipe 1502 in length, the outer pipe 1501 and the inner pipe 1502 are detachably connected, metal connectors are arranged at two ends of the outer pipe 1501 and the inner pipe 1502, three positioning pieces are arranged at one end of the inner pipe 1502, the three positioning pieces are arranged at one end of the outer pipe 1501 and are connected in the three slots through magnetic attraction, then the mist pipe 15 at one end is inserted into the connection port 16, the three positioning pieces are overlapped with fixing pieces in the connection port 16 through magnetic attraction, and the mist outlet 14 in the mist box 11 are different in shape, therefore when different mist outlet 14 are in butt joint with the connection port 16, when the mist outlet 14 is in butt joint with the connection port 16, the mist outlet 16 is in circular shape, the mist outlet 16 is in the mist outlet 16 through the connection port 16, when the mist outlet 16 is in the annular connection port is in the mist outlet port 16 is in the connection with the connection port of the inner pipe 1502.

The other end of the atomizing tube 15 is connected with a face mask, and in order to prevent the backflow of fog drops, the other end of the atomizing tube 15 is also provided with a shielding component 17, the shielding component 17 comprises an inner ring 1701 and an outer ring 1702, the inner ring 1701 is butted with the inner pipe 1502, the outer ring 1702 is butted with the outer pipe 1501, the shielding component 17 further comprises a stretching shielding device, the stretching shielding device comprises two accommodating chambers 18 symmetrically arranged on the outer ring 1702, conical coil springs are arranged in the accommodating chambers 18, elastic shielding sheets 20 are connected on the conical coil springs, the elastic shielding sheets 20 are in a ring shape after stretching, the elastic shielding sheets 20 can be made of polyester materials or synthetic rubber, corrugated paper can be adopted, the arrangement of the conical coil springs can better accommodate the annular elastic shielding sheets 20, the other end of the elastic shielding sheets 20 is provided with a stretching plate 21, the outer ring 1702 and the inner ring 1701 are provided with a limit slide way 22, the stretching plate 21 is positioned in the limit slide way 22 and can move in the limit slide way 22, when the stretching shielding device is in a rolling state, the elastic shielding plate 20 is rolled and contained in the containing chamber 18, a part between the outer ring 1702 and the inner ring 1701 is exposed, fog drops and air can pass through the elastic shielding plate, when the stretching shielding device is in a stretching state, the elastic shielding plate 20 moves in the limit slide way 22 through the stretching plate 21 so as to stretch outwards, the part between the outer ring 1702 and the inner ring 1701 is shielded, the fog drops and the air can not pass through the stretching shielding device are also arranged on the inner ring 1701, the stretching plates 21 in the two stretching shielding devices are jointly connected with a control rod 23, and one end of the control rod 23 is provided with a spring clamping head 2301;

the limiting slide way 22 of the outer ring 1702 is provided with the deflector rod channel 24, the control rod 23 penetrates through the outer ring 1702 and then is positioned in the deflector rod channel 24, the two ends of the deflector rod channel 24 are provided with hollow accommodating grooves, the spring clamping heads 2301 can be buckled in the hollow accommodating grooves, the two hollow accommodating grooves are provided with the marks of opening and closing, when the spring clamping heads 2301 of the control rod 23 are positioned in the hollow accommodating grooves of opening, at the moment, a stretching shielding device in the outer ring 1702 is in a winding state, fog drops in the outer tube 1501 can pass through, the stretching shielding device in the inner ring 1701 is in a stretching state, the fog drops cannot enter the inner tube 1502, the situation that chemical reaction reduces the chemical reaction or other accidents occur due to the fact that different liquid medicines enter different tubes is prevented, the two ends of the deflector rod channel 24 are provided with accommodating grooves, the shielding rings 25 are arranged in the accommodating grooves, the fog drops are prevented from outwards losing from the deflector rod channel 24, the fog drops are prevented from being connected with a mask through the shielding assembly 17, the fog drops can be prevented from being lost outwards, the fog drops can be prevented from being lost on the mask through the shielding assembly 17, the conventional mask can be better, and the fog drops can be prevented from being lost, and the fog drop can be filtered.

When a child sucks fog drops, the flow speed of the fog drops is too fast due to the blowing of the air supply device to the fog drops, so that the speed of the child sucking the fog drops cannot keep up with the flow speed, and the child is possibly uncomfortable, but if the air supply device is not provided, the autonomous breathing frequency of the child cannot be ensured, the sucking efficiency of the fog drops cannot be ensured, in order to enable the child to absorb the fog drops better, a supporting seat is arranged on a base 3 of the atomizer, two cantilevers are arranged on the supporting seat, the other end of each cantilever is provided with a height adjusting plate 26, the height adjusting plate 26 is a telescopic structure consisting of an outer sleeve plate and an inner insert plate, positioning holes are formed in the outer sleeve plate and the inner insert plate, positioning pieces are further arranged on the telescopic structure, the positioning piece is inserted into the positioning hole to position the height adjusting plate 26, the shoulder positioning plate 27 is arranged at the upper end of the height adjusting plate 26 and used for positioning the shoulders of the child, the shoulder positioning plate 27 is in shaft connection with the height adjusting plate 26, the shoulder positioning plate 27 is elliptical, the shoulder positioning plate 27 can freely rotate by taking the shaft connection part as a central shaft, children with different heights can be adapted to the height adjusting plate 26, the children with different shoulder widths can be positioned by rotating the shoulder positioning plate 27, the elastic sponge is arranged on the shoulder positioning plate 27, the comfort level of the children in the use process can be improved, the guardrail is further connected below the cantilever, and the child seat is connected below the guardrail;

the child seat comprises a positioning handrail and an auxiliary backrest 19, wherein the guardrail is connected with the positioning handrail, the positioning handrail is also provided with a positioning slide way 28, a plurality of arc-shaped grooves 2801 are arranged in the positioning slide way 28, a positioning plug rod 2802 is arranged in the arc-shaped groove 2801, the lower end of the positioning plug rod 2802 is provided with a cylindrical positioning head, when the positioning head is positioned in the arc-shaped groove 2801, the plug rod cannot move in the positioning slide way 28, when the positioning head is pulled out of the arc-shaped groove 2801, the positioning plug rod 2802 can move in the positioning slide way 28, the upper end of the positioning plug rod 2802 penetrates through the guardrail and is provided with a plug head 2803, when the plug head 2803 is pulled out, the guardrail can be pushed, the distance between the guardrail and the auxiliary backrest 19 is controlled, so that better adaptation fat and thin different children are provided with the eccentric wheel 29 in the auxiliary backrest 19, the circle center of the eccentric wheel 29 is provided with a servo motor, the eccentric wheel 29 can rotate through the servo motor, the auxiliary pushing plate 30 is further arranged on the eccentric wheel 29, the auxiliary backrest 19 is provided with an auxiliary strip opening 31 through which the auxiliary pushing plate 30 can pass, a breathing auxiliary device is formed by the auxiliary pushing plate 30 and the shoulder positioning plate 27, the auxiliary pushing plate 30 can push the back of the child after passing through the auxiliary strip opening 31, and the auxiliary chest expansion movement of the child can be repeatedly performed by matching with the shoulder positioning plate 27, so that the auxiliary breathing function is realized.

When in use, the upper cover 2 of the atomizer is firstly opened, then the atomizing box 11 is taken out from the shell 1, the box cover 1101 of the atomizing box 11 is opened, two different liquid medicines are respectively injected into the two atomizing boxes 11, then the box cover 1101 is buckled on the atomizing boxes 11, then the atomizing box 11 is put into the shell 1, the limit post 10 is inserted into the locating blind hole 1102, then the upper cover 2 is buckled on the shell 1, then the rotation of the rotary locating ring 9 is controlled by the stirring piece, the locating bulge 8 on the rotary locating ring 9 is sunk into the locating groove 7 on the limit ring 6, then the plug 2803 on the child seat is pulled upwards, the distance between the guardrail and the auxiliary backrest 19 is adjusted, then the child is put on the child seat, the child leans on the auxiliary backrest 19, the shoulder locating plate 27 and the shoulder of the child are positioned on the same horizontal line through the height adjusting plate 26, then the guard rail is controlled to drive the shoulder positioning plate 27 to move, the shoulder positioning plate 27 is attached to the shoulders of a child, the plug 2803 is pressed down, the positioning head is inserted into the arc-shaped groove 2801, the positions of the guard rail and the shoulder positioning plate 27 are limited, then the mask is worn on the head of the child, the atomizing machine is opened, the high-frequency vibration plate 5 above the ultrasonic generator breaks up the liquid medicine in the atomizing box 11 through the sound-permeable membrane to form fogdrops, then the fogdrops enter the atomizing pipe 15 through the fogdrop outlet 14, enter the outer pipe 1501 or the inner pipe 1502 according to different fogdrop outlet 14, as the upper cover 2 is semicircular, whether the fogdrop outlet 14 below the connecting port 16 is connected with the inner pipe 1502 or connected with the outer pipe 1501 can be known through observation, then the opening or closing of the outer pipe 1501 and the inner pipe 1502 is controlled through the shielding component 17 on the atomizing pipe 15, the mist drops enter the mask, the servo motor in the auxiliary backrest 19 drives the eccentric wheel 29 to rotate, then the auxiliary push plate 30 passes through the auxiliary strip port 31 to push the back of the child, the child is repeatedly subjected to chest expansion motion by being matched with the shoulder positioning plate 27, in order to avoid discomfort caused by overlarge wind force of the air supply device when the child inhales air, the atomizer is provided with no air supply device, so that the auxiliary backrest 19 can better help the child breathe, mist drops in the mask are inhaled into the respiratory tract, in order to avoid the condition of insufficient oxygen, and avoid the mist drops to be discharged from the exhaust port of the mask, a PEHA filter screen is further arranged on the mask, oxygen can enter through the PEHA filter screen, so that the mist drops can not be discharged and run off, when the child needs to replace liquid medicine, the child directly rotates to control the positions of the rotary positioning ring 9 to quickly inhale the liquid medicine by controlling the opening and closing of the inner tube 1502 and the outer tube 1501 by the shielding component 17, the whole process is not required to be replaced, the atomizer tube 15 is not required to be replaced, the whole process is not required to stop the atomizer, the whole process is required to be replaced, the whole process is also required to be simply operated, the child can be saved, and the child can be cleaned by the child is not required to detach the atomizer tube 11, and the child can be cleaned by being required to be cleaned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a respiratory tract treatment atomizer, includes atomizer and children's seat, and the atomizer comprises base and shell, is provided with supersonic generator in the base, and the base setting is in the below of shell, and the lock has the upper cover on the shell, is provided with the connector on the upper cover, is provided with the atomizing pipe on the connector, is provided with the atomizing box in the shell, and atomizing box bottom is provided with the sound-permeable membrane, and the connector is connected its characterized in that with the fog drop discharge port on the atomizing box: the cross-section of shell be circular, be provided with two atomizing boxes in the shell, the cross-section of atomizing box is semicircular, make up into circularly on two atomizing boxes, be provided with the lid on the atomizing box, be provided with the droplet discharge port on the lid, the droplet discharge port shape on two atomizing boxes is different, the atomizing pipe is double-deck pipe, divide into inner tube and outer tube, the droplet discharge port exhaust droplet of different shapes can send into respectively in inner tube or the outer tube, and still be provided with on the atomizing pipe and shelter from the subassembly, shelter from the subassembly and include inner ring and outer loop, the inner ring is docked with the inner tube, the outer loop is docked with the outer tube, shelter from the subassembly still includes tensile shielding device, tensile shielding device includes that the symmetry is provided with two accommodation chambers on the outer loop, be provided with conical coil spring in the accommodation chamber, be connected with elastic shielding piece on the conical coil spring, elastic shielding piece is annular after tensile, elastic shielding piece is made for elastic material, elastic shielding piece's the other end is provided with stretching plate, be provided with spacing slide on outer loop and inner ring, stretching plate is located spacing slide, and can remove in spacing slide.

2. A respiratory tract treatment nebulizer as claimed in claim 1, wherein: the shell in be provided with the spacing ring, be provided with positioning groove on the spacing ring.

3. A respiratory tract treatment nebulizer as claimed in claim 2, wherein: the upper part of the limiting ring is provided with a rotary positioning ring, the lower surface of the rotary positioning ring is provided with a positioning bulge, and a limiting opening is formed in the shell.

4. A respiratory tract treatment nebulizer as claimed in claim 3, wherein: the limiting strip opening is internally provided with a notch, the limiting strip opening is internally provided with a stirring piece, and the stirring piece is detachably connected with the rotary positioning ring.

5. A respiratory tract treatment nebulizer as claimed in claim 1, wherein: the fog drop outlet on the box cover is divided into an annular outlet and a circular outlet, the annular outlet can be connected with the outer pipe, and the circular outlet can be connected with the inner pipe.

6. A respiratory tract treatment nebulizer as claimed in claim 1, wherein: the child seat is provided with a height adjusting plate, a shoulder positioning plate is arranged on the height adjusting plate, an auxiliary backrest is further arranged on the child seat, an auxiliary strip opening is formed in the auxiliary backrest, an eccentric wheel and an auxiliary push plate are arranged in the auxiliary backrest, and the auxiliary push plate can extend out of the auxiliary strip opening.