CN213374569U - Artificial respirator for rescuing in cardiology department - Google Patents

Abstract

The utility model discloses an artificial respirator is used in intracardiac branch of academic or vocational study rescue, exhale control cover, air flue siphunculus, the conveyer pipe of breathing in, one-way solenoid valve, the flexible pipe of ripple, Y type three-way pipe, gaseous humidification unit, gas heating unit, gas compression unit, supporting platform, shock attenuation unit, mobile unit and control the panel including the nasal part. The utility model belongs to the technical field of the medical apparatus of intracardiac branch of academic or vocational study, specifically an artificial respirator is used in intracardiac branch of academic or vocational study rescue, breathe out control cover and trachea siphunculus through setting up the nasal part, conveniently open patient's air flue and carry out oxygen therapy, can be clear observe patient's the breathing condition, can be from leisurely handling when situations such as tongue appear swallowing for the patient, through setting up gaseous humidification unit, gaseous heating unit and gas compression unit provide convenience for the unable spontaneous respiration's of rescue patient, one-way conduction through setting up one-way solenoid valve has realized the pipe, prevent that the condensation backward flow that produces in the conveyer pipe of breathing in is inhaled by the patient and inhale, patient's safety has.

Description

Artificial respirator for rescuing in cardiology department

Technical Field

The utility model belongs to the technical field of the medical apparatus of intracardiac branch of academic or vocational study, specifically indicate an artificial respirator is used in intracardiac branch of academic or vocational study rescue.

Background

In the cardiology clinic, when a patient with dyspnea is rescued in an emergency treatment, a respirator is used for the patient, but the patient with stopped or stagnant respiration needs to be rescued by applying artificial respiration because the patient cannot breathe by himself, the existing respirator cannot meet the requirements of providing the two treatment methods at the same time, precious rescue time is wasted to a certain extent, and the life safety of the patient is seriously challenged; when the patient is unconscious or unconscious, the tongue may be caused to be fallen down and swallowed, the respiratory tract of the patient is blocked, and the patient cannot breathe; when the patient who can not breathe spontaneously is breathed manually, the nostrils of the patient need to be blocked firstly, the air passage of the patient is opened for oxygen therapy, the nostrils are loosened after the oxygen therapy is finished, if the patient finds that the nose of the patient is successfully exhaled by airflow, the operation and judgment of the medical personnel are generally needed, and the burden of the medical personnel is increased; the air generated by the existing artificial respirator is dry and has the temperature lower than the body temperature, and the air pipe of the patient can be damaged when the patient is unconscious, so that the body of the patient is stimulated; when the patient uses the artificial respirator, condensation can be generated in the delivery pipe, which causes the phenomenon of backflow, and the patient is choked.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides an intracardiac branch of academic or vocational study is rescue with artificial respirator has effectively solved rescue with artificial respirator inefficiency and use inconvenient problem on the existing market, the success rate of patient's rescue has been improved, further strive for first rescue time for the patient, for rescuing unconscious and unable spontaneous respiration's patient provides convenience, the medical experience of intracardiac branch of academic or vocational study patient has been improved, the intracardiac branch of academic or vocational study that degree of automation is high is rescued with artificial respirator and is provided probably.

The utility model adopts the following technical scheme: the utility model relates to an artificial respirator for emergency treatment in cardiology department, which comprises a nasal part expiration control cover, an air passage through pipe, an inspiration conveying pipe, a one-way solenoid valve, a corrugated expansion pipe, a Y-shaped three-way pipe, a gas humidifying unit, a gas heating unit, a gas compression unit, a supporting platform, a damping unit, a moving unit and a control panel, wherein the moving unit is arranged on a plane with a smooth surface, the damping unit is fixedly connected on the upper bottom wall of the moving unit, the supporting platform is fixedly connected on the upper bottom wall of the damping unit, the control panel is fixedly connected on the front side wall of the supporting platform, the nasal part expiration control cover is arranged on the supporting platform and positioned on the left side of the supporting platform, the gas compression unit is arranged on the right side of the supporting platform and positioned on the supporting platform, the gas heating unit is arranged on the supporting platform and positioned on the left side of the gas compression unit, the gas humidifying unit, the Y-shaped three-way pipe is arranged between the gas humidifying unit and the gas heating unit in a penetrating mode, the corrugated expansion pipe is arranged above the Y-shaped three-way pipe in a penetrating mode, the air passage through pipe is arranged above the corrugated expansion pipe in a left side, the one-way electromagnetic valve is arranged below the right side of the air passage through pipe and located above the left side of the corrugated expansion pipe, and the air suction conveying pipe is arranged between the air passage through pipe, the one-way electromagnetic valve and the corrugated expansion pipe in a penetrating mode.

Further, nasal part expiration control cover includes protecting sheathing, cushion, elastic fixation area, gas flowmeter, expiration pipe and automatic nose clamping device, protecting sheathing is hollow and lower bottom wall open-ended cylinder, the cushion is the annular and encircles the lower extreme on protecting sheathing's lateral wall, the both ends symmetry rigid coupling of elastic fixation area is on protecting sheathing's lateral wall, gas flowmeter locates protecting sheathing's the upper right side, gas flowmeter can show oxygen and carbon dioxide content in the protecting sheathing to play and detect whether the patient can exhale, expiration pipe crooked link up and locate between protecting sheathing's last diapire and gas flowmeter, automatic nose clamping device locates in the protecting sheathing, automatic nose clamping device includes transmission supporting seat one, transmission supporting seat two, intermediate fixed plate, screw axle one, a, A second screw shaft, a first transmission platform, a second transmission platform, a first screw nut, a second screw nut, a first support connecting block, a second support connecting block, a cross connecting arm, a nose clip connecting arm, an elastic layer and a nose clip cushion, wherein the middle fixing plate is arranged at the middle position of the protective shell, the first transmission supporting seat is fixedly connected on the left inner wall of the protective shell and the left side wall of the middle fixing plate, the second transmission supporting seat is fixedly connected on the right inner wall of the protective shell and the right side wall of the middle fixing plate, the first screw shaft is arranged between the first transmission supporting seats, the second screw shaft is arranged between the second transmission supporting seats, the first transmission platform and the first screw nut are arranged on the first screw shaft in a penetrating manner, the second transmission platform and the second screw nut are arranged on the second screw shaft in a penetrating manner, the first screw nut is fixedly connected on the left side wall of the first transmission platform, and the second screw nut is fixedly connected on the right, the utility model discloses a nasal splint, including transmission platform two, supporting connection piece, cross linking arm, nose clamp linking arm, elastic layer rigid coupling, supporting connection piece one, two rigid couplings of supporting connection piece are on transmission platform two's lower diapire, the cross linking arm alternately rotates and connects on the lower diapire of supporting connection piece one and supporting connection piece two, the nose presss from both sides both ends of linking arm rigid coupling on the lower diapire of cross linking arm, press from both sides the nose cushion and locate the right side that the nose pressed from both sides the linking arm, the elastic layer rigid coupling presss from both sides between the linking arm in nose cushion and nose, evenly be.

Furthermore, the nose clamping soft cushion, the elastic layer and the nose clamp connecting arm are obliquely and symmetrically distributed.

Further, the air flue siphunculus includes edge of a wing, bite-block and pharynx bent part, the edge of a wing just link up for oblate cylindricality and locate on the left side wall of the conveyer pipe of breathing in, the bite-block just link up for hollow cylinder and locate on the left side wall on the edge of a wing, the pharynx bent part is on the hose of downwarping just link up and locate the left side wall of bite-block, in the pharynx bent part flexible gos deep into patient's respiratory track to open patient's respiratory track, make oxygen can carry to in patient's the respiratory track.

Furthermore, the gas compression unit comprises a compression unit shell, a compression air pump, an air inlet, an air outlet, a speed reducer, an axle coupler, a compression unit driving motor, a compressed gas conveying pipe and a time relay, the compression unit shell is arranged on the upper bottom wall of the supporting platform, the compression air pump, the air inlet, the air outlet, the speed reducer, the axle coupler, the compression unit driving motor and the time relay are all arranged in the compression unit shell, the time relay is arranged on the right side in the compression unit shell, the compression unit driving motor is fixedly connected on the upper bottom wall of the supporting platform and arranged on the left side of the time relay, the speed reducer is fixedly connected on the upper bottom wall of the supporting platform and arranged on the left side of the compression unit driving motor, the axle coupler is coupled between the speed reducer and the compression unit driving motor, the compression air pump is fixedly connected on the upper bottom wall of the supporting platform and arranged on the, mechanical connection between compression air pump and the speed reducer, the air inlet link up on locating the last diapire of compression air pump, the gas outlet link up on locating the left side wall of compression air pump, the compressed gas conveyer pipe link up the left side wall of compression unit shell and locate between the right side wall of gas outlet and gas heating unit, electrical connection between time relay and transmission supporting seat one, transmission supporting seat two and the compression unit driving motor.

Further, the gas heating unit comprises a gas heater, a heating driving motor and a heating conveying pipe, the gas heater is fixedly connected to the upper bottom wall of the supporting platform, the heating driving motor is arranged on the upper bottom wall of the gas heater, the heating conveying pipe penetrates through the Y-shaped three-way pipe, the gas heater and the compressed gas conveying pipe in a bending mode, and the gas heater is mechanically connected with the heating driving motor.

Furthermore, the gas humidification unit comprises a gas humidifier, a moisture outlet and a moisture delivery conduit, the gas humidifier is fixedly connected to the upper bottom wall of the supporting platform, the moisture outlet penetrates through the upper bottom wall of the gas humidifier, and the moisture delivery conduit is arranged between the moisture outlet and the Y-shaped three-way pipe in a bent penetrating manner.

Further, the one-way solenoid valve switches on in one way, prevents that the condensation that produces in the conveyer pipe of breathing in from being inhaled, Y type three-way pipe is for falling Y shape, Y type three-way pipe includes main siphunculus and supplementary siphunculus, main siphunculus runs through to be located between the lower extreme of the flexible pipe of ripple and the upper end of heating conveyer pipe, supplementary siphunculus runs through to be located between main siphunculus and the moisture conveyer pipe.

Further, the shock attenuation unit includes vibration damping mount and big spring, the vibration damping mount rigid coupling is on mobile unit's last diapire, the even rigid coupling of big spring is between vibration damping mount and supporting platform, mobile unit is including supporting three hornblocks, spud pile, wheel body fixed plate, wheel carrier and wheel body, support three hornblocks rigid coupling on vibration damping mount's lower diapire, the spud pile rigid coupling is on supporting three hornblocks's lower diapire, wheel body fixed plate rigid coupling is on the lower diapire of spud pile, the both sides on the lower diapire of wheel body fixed plate of wheel carrier rigid coupling, the wheel body coupling is between the wheel carrier.

Further, the control panel comprises a panel body, a transmission control button, a humidification control button, a heating control button and a compression control button, the panel body is fixedly connected on the front side wall of the supporting platform, the transmission control button, the humidification control button, the heating control button and the compression control button are all arranged on the panel body, the transmission control button is arranged at the left end of the panel body, the humidification control button is arranged at the right side of the transmission control button, the heating control button is arranged on the right side of the humidifying control button, the compression control button is arranged on the right side of the heating control button, the transmission control button is electrically connected with the transmission supporting seat I and the transmission supporting seat II, the humidification control button is electrically connected with the gas humidifier, the heating control button is electrically connected with the heating driving motor, and the compression control button is electrically connected with the compression unit driving motor.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the technical scheme is that the artificial respirator for the rescue in the department of cardiology effectively solves the problems of low efficiency and inconvenience in use of the artificial respirator for the rescue in the current market by arranging the nasal part expiration control cover and the air passage pipe, the air passage of a patient is convenient to open for oxygen delivery, the breathing condition of the patient can be clearly observed, the artificial respirator can be taken care of when the patient swallows the tongue, the success rate of the rescue of the patient is improved, the first rescue time is further strived for the patient, the artificial respirator for the rescue in a coma and can not breathe freely is provided by arranging the gas humidifying unit, the gas heating unit and the gas compressing unit, the breathing process of the patient is more comfortable, the stimulation to the body of the patient is reduced to the maximum extent, the controllability of the artificial respirator for the rescue in the department of cardiology is improved, and the possibility of high automation degree is provided for the artificial respirator for the rescue in the department of cardiology, the one-way conduction of the conduit is realized by arranging the one-way solenoid valve, the phenomenon that the condensation backflow generated in the air suction conveying pipe is inhaled by a patient to cause choking is prevented, and the safety of the patient is further protected.

Drawings

FIG. 1 is a schematic view of the overall structure of the artificial respirator for emergency treatment in cardiology department of the present invention;

FIG. 2 is a schematic structural view of a nasal part exhalation control cover of the artificial respirator for emergency treatment in cardiology department of the present invention;

fig. 3 is a partially enlarged view of a portion a of fig. 1;

fig. 4 is a partially enlarged view of a portion B of fig. 1.

Wherein, 1, a nasal breathing control cover, 2, an air channel through pipe, 3, a breathing conveying pipe, 4, a one-way electromagnetic valve, 5, a corrugated expansion pipe, 6, a Y-shaped three-way pipe, 7, a gas humidifying unit, 8, a gas heating unit, 9, a gas compressing unit, 10, a supporting platform, 11, a damping unit, 12, a moving unit, 13, a control panel, 14, a protective shell, 15, a cushion, 16, an elastic fixing belt, 17, a gas flowmeter, 18, a breathing conduit, 19, an automatic nose clamping device, 20, a first transmission supporting seat, 21, a second transmission supporting seat, 22, a middle fixing plate, 23, a first lead screw shaft, 24, a second lead screw shaft, 25, a first transmission platform, 26, a second transmission platform, 27, a first lead screw nut, 28, a second lead screw nut, 29, a first supporting connecting block, 30, a second supporting connecting block, 31, a cross connecting arm, 32 and a nose clamping connecting arm, 33. an elastic layer 34, a nose clamping cushion 35, a small spring 36, a flange 37, a bite block 38, a throat bending part 39, a compression unit shell 40, a compression air pump 41, an air inlet 42, an air outlet 43, a speed reducer 44, a coupling 45, a compression unit driving motor 46, a compressed air delivery pipe 47, a time relay 48, an air heater 49, a heating driving motor 50, heating and conveying pipe 51, gas humidifier 52, moisture outlet 53, moisture conveying pipe 54, main pipe 55, auxiliary pipe 56, damping bottom plate 57, large spring 58, supporting triangular block 59, fixing pile 60, wheel fixing plate 61, wheel frame 62, wheel body 63, panel body 64, transmission control button 65, humidification control button 66, heating control button 67 and compression control button.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-2, the artificial respirator for cardiology department rescue of the present invention comprises a nasal exhalation control cover 1, an air passage tube 2, an inhalation delivery tube 3, a one-way solenoid valve 4, a corrugated expansion tube 5, a Y-shaped three-way tube 6, a gas humidifying unit 7, a gas heating unit 8, a gas compressing unit 9, a supporting platform 10, a damping unit 11, a moving unit 12 and a control panel 13, wherein the moving unit 12 is disposed on a plane with a smooth surface, the damping unit 11 is fixedly connected to an upper bottom wall of the moving unit 12, the supporting platform 10 is fixedly connected to an upper bottom wall of the damping unit 11, the control panel 13 is fixedly connected to a front side wall of the supporting platform 10, the nasal exhalation control cover 1 is disposed on the supporting platform 10 and located on the left side of the supporting platform 10, the gas compressing unit 9 is disposed on the supporting platform 10 and located on the right side of the supporting platform, the gas heating unit 8 is arranged on the supporting platform 10 and located on the left side of the gas compression unit 9, the gas humidifying unit 7 is arranged on the supporting platform 10 and located on the left side of the gas heating unit 8, the Y-shaped three-way pipe 6 is arranged between the gas humidifying unit 7 and the gas heating unit 8 in a penetrating mode, the corrugated expansion pipe 5 is arranged above the Y-shaped three-way pipe 6 in a penetrating mode, the air passage through pipe 2 is arranged above the corrugated expansion pipe 5 in a penetrating mode, the one-way electromagnetic valve 4 is arranged below the air passage through pipe 2 in the right side and located above the corrugated expansion pipe 5 in a penetrating mode, and the air suction conveying pipe 3 is arranged between the air passage through pipe 2, the one-way electromagnetic valve.

Further, nasal part expiration control cover 1 includes protecting sheathing 14, cushion 15, elastic fixation band 16, gas flowmeter 17, expiration pipe 18 and automatic nose clamping device 19, protecting sheathing 14 is the cylinder of hollow and lower diapire open-ended, cushion 15 is the annular and encircles the lower extreme on protecting sheathing 14's lateral wall, the both ends symmetry rigid coupling of elastic fixation band 16 is on protecting sheathing 14's lateral wall, gas flowmeter 17 locates the upper right side of protecting sheathing 14, gas flowmeter 17 can show oxygen and carbon dioxide content in protecting sheathing 14 to play and detect whether the patient can exhale, expiration pipe 18 is crooked to be link up and to be located between protecting sheathing 14's last diapire and gas flowmeter 17, automatic nose clamping device 19 is located in protecting sheathing 14, automatic nose clamping device 19 includes transmission supporting seat one 20, automatic nose clamping device 19, Two transmission supporting seats 21, two middle fixing plates 22, one screw shaft 23, two screw shafts 24, one transmission platform 25, two transmission platforms 26, one screw nut 27, two screw nuts 28, one supporting connecting block 29, two supporting connecting blocks 30, one cross connecting arm 31, one nose clip connecting arm 32, an elastic layer 33 and a nose clamping cushion 34, wherein the middle fixing plate 22 is arranged at the middle position of the protective shell 14, one transmission supporting seat 20 is fixedly connected to the left side wall of the inner wall of the protective shell 14 and the left side wall of the middle fixing plate 22, the two transmission supporting seats 21 are fixedly connected to the right side wall of the inner wall of the protective shell 14 and the right side wall of the middle fixing plate 22, one screw shaft 23 is arranged between the two transmission supporting seats 20 in a penetrating manner, the two screw shafts 24 are arranged between the two transmission supporting seats 21 in a penetrating manner, the one transmission platform 25 and the one screw nut 27 are arranged on the one screw shaft 23 in a penetrating manner, the two transmission platforms 26 and the two screw nuts 28 are arranged on the two, the utility model discloses a nasal splint, including drive platform one 25, lead screw nut 27 rigid coupling, two 28 rigid couplings of lead screw nut are on two 26 right side walls of drive platform, support connecting block 29 rigid couplings on the lower diapire of drive platform one 25, two 30 rigid couplings of support connecting block are on two 26 lower diapalls of drive platform, 31 cross rotation of cross connecting arm connects on the lower diapalls of support connecting block 29 and two 30, the both ends of nose clip linking arm 32 rigid coupling on the lower diapalls of cross connecting arm 31, the right side of nose clip linking arm 32 is located to double-layered nose cushion 34, elastic layer 33 rigid coupling is between double-layered nose cushion 34 and nose clip linking arm 32, evenly be equipped with little spring 35 in the elastic layer 33.

Further, the nose pad 34, the elastic layer 33 and the nose clip connecting arm 32 are obliquely and symmetrically distributed.

Further, airway siphunculus 2 includes edge of a wing 36, bite-block 37 and pharynx bent part 38, edge of a wing 36 is oblate cylindricality and link up and locate on the left side wall of breathing in conveyer pipe 3, bite-block 37 is hollow cylinder and link up and locate on the left side wall of edge of a wing 36, pharynx bent part 38 is the hose of downwarping and link up and locate on the left side wall of bite-block 37, pharynx bent part 38 flexible go deep into in patient's the respiratory track to open patient's respiratory track, make oxygen can carry to in patient's the respiratory track.

Further, the gas compression unit 9 comprises a compression unit housing 39, a compression air pump 40, an air inlet 41, an air outlet 42, a speed reducer 43, a coupling 44, a compression unit driving motor 45, a compressed gas delivery pipe 46 and a time relay 47, the compression unit housing 39 is arranged on the upper bottom wall of the support platform 10, the compression air pump 40, the air inlet 41, the air outlet 42, the speed reducer 43, the coupling 44, the compression unit driving motor 45 and the time relay 47 are all arranged in the compression unit housing 39, the time relay 47 is arranged on the right side in the compression unit housing 39, the compression unit driving motor 45 is fixedly connected on the upper bottom wall of the support platform 10 and arranged on the left side of the time relay 47, the speed reducer 43 is fixedly connected on the upper bottom wall of the support platform 10 and arranged on the left side of the compression unit driving motor 45, the coupling 44 is axially connected between the speed reducer 43 and the compression unit driving motor 45, the left side of speed reducer 43 is just located on the last diapire of supporting platform 10 to compressed air pump 40 rigid coupling, mechanical connection between compressed air pump 40 and the speed reducer 43, air inlet 41 link up and locates on the last diapire of compressed air pump 40, gas outlet 42 link up and locates on the left side wall of compressed air pump 40, compressed gas conveyer pipe 46 link up the left side wall of compression unit shell 39 and locates between gas outlet 42 and the right side wall of gas heating unit 8, electrical connection between time relay 47 and transmission supporting seat 20, transmission supporting seat two 21 and the compression unit driving motor 45.

Further, the gas heating unit 8 includes a gas heater 48, a heating driving motor 49 and a heating conveying pipe 50, the gas heater 48 is fixedly connected to the upper bottom wall of the supporting platform 10, the heating driving motor 49 is disposed on the upper bottom wall of the gas heater 48, the heating conveying pipe 50 is bent and penetrated among the Y-shaped three-way pipe 6, the gas heater 48 and the compressed gas conveying pipe 46, and the gas heater 48 and the heating driving motor 49 are mechanically connected.

Further, the gas humidification unit 7 comprises a gas humidifier 51, a moisture outlet 52 and a moisture delivery conduit 53, wherein the gas humidifier 51 is fixedly connected to the upper bottom wall of the support platform 10, the moisture outlet 52 is penetratingly arranged on the upper bottom wall of the gas humidifier 51, and the moisture delivery conduit 53 is penetratingly arranged between the moisture outlet 52 and the Y-shaped tee 6 in a bending manner.

Further, the one-way electromagnetic valve 4 is in one-way conduction to prevent condensation generated in the air suction conveying pipe 3 from being sucked, the Y-shaped three-way pipe 6 is in an inverted Y shape, the Y-shaped three-way pipe 6 comprises a main through pipe 54 and an auxiliary through pipe 55, the main through pipe 54 is arranged between the lower end of the corrugated expansion pipe 5 and the upper end of the heating conveying pipe 50 in a penetrating manner, and the auxiliary through pipe 55 is arranged between the main through pipe 54 and the moisture conveying pipe 53 in a penetrating manner.

Further, damping unit 11 includes damping bottom plate 56 and big spring 57, damping bottom plate 56 rigid coupling is on the last diapire of mobile unit 12, the even rigid coupling of big spring 57 is between damping bottom plate 56 and supporting platform 10, mobile unit 12 is including supporting triangle piece 58, spud pile 59, wheel body fixed plate 60, wheel carrier 61 and wheel body 62, support triangle piece 58 rigid coupling on damping bottom plate 56's lower diapire, spud pile 59 rigid coupling is on the lower diapire of supporting triangle piece 58, wheel body fixed plate 60 rigid coupling is on the lower diapire of spud pile 59, wheel carrier 61 rigid coupling is in the both sides on the lower diapire of wheel body fixed plate 60, wheel body 62 hub connection is between wheel carrier 61.

Further, the control panel 13 comprises a panel body 63, a transmission control button 64, a humidification control button 65, a heating control button 66 and a compression control button 67, the panel body 63 is fixedly connected to the front side wall of the supporting platform 10, the transmission control button 64, the humidification control button 65, the heating control button 66 and the compression control button 67 are all arranged on the panel body 63, the transmission control button 64 is arranged at the left end of the panel body 63, the humidification control button 65 is arranged at the right side of the transmission control button 64, the heating control button 66 is arranged at the right side of the humidification control button 65, the compression control button 67 is arranged at the right side of the heating control button 66, the transmission control button 64 is electrically connected with the first transmission support seat 20 and the second transmission support seat 21, and the humidification control button 65 is electrically connected with the gas humidifier 51, the heating control button 66 is electrically connected to the heating drive motor 49, and the compression control button 67 is electrically connected to the compression unit drive motor 45.

When the nasal exhalation control mask is used specifically, a user wears the nasal exhalation control mask 1 on the nose of a nasal patient, the elastic fixing band 16 is tied on the back of the head of the patient, the nose of the patient can be aligned to the nasal clamping cushion 3415, then the forehead and the lower jaw of the patient are held, the mouth of the patient is opened, the pharyngeal bending part 38 of the airway tube 2 is slowly plugged into the respiratory tract, the position is adjusted to enable the patient to bite the bite block 37 and enable the lips of the patient to abut against the flange 36, so that the airway of the patient is opened, then the transmission control button 64 is pressed to start the first transmission support seat 20 and the second transmission support seat 21, the first transmission platform 25 and the second transmission platform 26 are towards the middle at the same time, so that the nasal clamping cushion 3415 clamps the nose of the patient, the humidification control button 65 is pressed to start the gas humidifier 51 to generate humid gas to be sent into the auxiliary tube 55 of the Y-shaped three-way tube, then the compression control button 67 is pressed to start the compression unit driving motor 45 to drive the speed reducer 43 to reduce the speed, so that the compression air pump 40 starts to work, the air is pressurized and conveyed to the compressed air conveying pipe 46, the heating control button 66 is pressed to start the heating driving motor 49 to drive the air heater 48 to work, the air conveyed by the compressed air conveying pipe 46 is continuously heated and conveyed to the Y-shaped three-way pipe 6 through the heating conveying pipe 50, the compressed, heated and humidified air is conveyed into the respiratory tract of the patient through the Y-shaped three-way pipe 6, the corrugated expansion pipe 5, the inspiration conveying pipe 3 and the airway pipe 2, the time relay 47 works synchronously at the moment, two seconds are timed, the first transmission support seat 20 and the second transmission support seat 21 are controlled to run reversely and the compression unit driving motor 45 stops working, so that the nasal 341cushion 5 is opened, the nasal cavity of the patient is opened, gas flowmeter 17 can show oxygen and carbon dioxide content in protecting sheathing 14 to play and detect whether the patient breathes out gas, it is above that the utility model discloses holistic work flow, repeat this step when using next time can.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (9)

1. The utility model provides a intracardiac branch of academic or vocational study artificial respirator for rescue which characterized in that: comprises a nasal part expiration control cover, an air passage through pipe, an inspiration conveying pipe, a one-way electromagnetic valve, a corrugated expansion pipe, a Y-shaped three-way pipe, a gas humidifying unit, a gas heating unit, a gas compression unit, a supporting platform, a damping unit, a moving unit and a control panel, wherein the moving unit is arranged on a plane with a smooth surface, the damping unit is fixedly connected on the upper bottom wall of the moving unit, the supporting platform is fixedly connected on the upper bottom wall of the damping unit, the control panel is fixedly connected on the front side wall of the supporting platform, the nasal part expiration control cover is arranged on the supporting platform and positioned on the left side of the supporting platform, the gas compression unit is arranged on the supporting platform and positioned on the right side of the supporting platform, the gas heating unit is arranged on the supporting platform and positioned on the left side of the gas compressing unit, and the gas humidifying unit is arranged on, the Y-shaped three-way pipe is arranged between the gas humidifying unit and the gas heating unit in a penetrating mode, the corrugated expansion pipe is arranged above the Y-shaped three-way pipe in a penetrating mode, the air passage through pipe is arranged above the corrugated expansion pipe in a left side, the one-way electromagnetic valve is arranged below the right side of the air passage through pipe and located above the left side of the corrugated expansion pipe, and the air suction conveying pipe is arranged between the air passage through pipe, the one-way electromagnetic valve and the corrugated expansion pipe in a penetrating mode.

2. An artificial respirator for cardiology rescue according to claim 1, wherein: nasal part expiration control cover includes protecting sheathing, cushion, elastic fixing band, gas flowmeter, expiration pipe and automatic nose clamping device, protecting sheathing is hollow and goes down the wall open-ended cylinder, the cushion is the annular and encircles the lower extreme on protecting sheathing's lateral wall, the both ends symmetry rigid coupling of elastic fixing band is on protecting sheathing's lateral wall, gas flowmeter locates protecting sheathing's the upper right side, expiration pipe bending link up locates between protecting sheathing's last diapire and gas flowmeter, automatic nose clamping device locates in protecting sheathing, automatic nose clamping device includes transmission supporting seat one, transmission supporting seat two, intermediate fixed plate, lead screw axle one, lead screw axle two, transmission platform one, transmission platform two, lead screw nut one, lead screw nut two, support connection piece one, support connection piece two, alternately linking arm, The nose clip connecting arm, the elastic layer and the nose clip cushion, the middle fixing plate is arranged at the middle position of the protective shell, the first transmission supporting seat is fixedly connected on the left side inner wall of the protective shell and the left side wall of the middle fixing plate, the second transmission supporting seat is fixedly connected on the right side inner wall of the protective shell and the right side wall of the middle fixing plate, the first screw shaft is arranged between the first transmission supporting seats in a penetrating way, the second screw shaft is arranged between the second transmission supporting seats in a penetrating way, the first transmission platform and the first screw nut are arranged on the first screw shaft in a penetrating way, the second transmission platform and the second screw nut are arranged on the second screw shaft in a penetrating way, the first screw nut is fixedly connected on the left side wall of the first transmission platform, the second screw nut is fixedly connected on the right side wall of the second transmission platform, the first supporting connecting block is fixedly connected on the lower bottom wall of the first transmission platform, the second supporting, the cross connection arm alternately rotates to be connected on the lower diapire of supporting connection block one and supporting connection block two, the nose presss from both sides both ends on the wall of going to the bottom of linking arm rigid coupling in the cross connection arm, the right side that the nose pressed from both sides the linking arm is located to the nose cushion, the elastic layer rigid coupling presss from both sides between the linking arm in nose cushion and nose, evenly be equipped with the little spring in the elastic layer, press from both sides nose cushion, elastic layer and nose and press from both sides linking arm position slope and symmetric distribution.

3. An artificial respirator for cardiology rescue according to claim 2, wherein: the air flue siphunculus includes edge of a wing, bite-block and pharynx bent part, the edge of a wing just link up for oblate cylindricality and locate on the left side wall of the conveyer pipe of breathing in, the bite-block just link up on locating the left side wall on the edge of a wing for hollow cylinder, the pharynx bent part is on the hose of downwarping and link up the left side wall of locating the bite-block.

4. A rescue artificial respirator for cardiology department according to claim 3, wherein: the gas compression unit comprises a compression unit shell, a compression air pump, an air inlet, an air outlet, a speed reducer, an coupler, a compression unit driving motor, a compressed gas conveying pipe and a time relay, the compression unit shell is arranged on the upper bottom wall of the supporting platform, the compression air pump, the air inlet, the air outlet, the speed reducer, the coupler, the compression unit driving motor and the time relay are all arranged in the compression unit shell, the time relay is arranged on the right side in the compression unit shell, the compression unit driving motor is fixedly connected on the upper bottom wall of the supporting platform and is arranged on the left side of the time relay, the speed reducer is fixedly connected on the upper bottom wall of the supporting platform and is arranged on the left side of the compression unit driving motor, the coupler is coupled between the speed reducer and the compression unit driving motor, the compression air pump is fixedly connected on the upper bottom wall of the supporting platform and is arranged, mechanical connection between compression air pump and the speed reducer, the air inlet link up on locating the last diapire of compression air pump, the gas outlet link up on locating the left side wall of compression air pump, the compressed gas conveyer pipe link up the left side wall of compression unit shell and locate between the right side wall of gas outlet and gas heating unit, electrical connection between time relay and transmission supporting seat one, transmission supporting seat two and the compression unit driving motor.

5. An artificial respirator for cardiology rescue according to claim 4, wherein: the gas heating unit comprises a gas heater, a heating driving motor and a heating conveying pipe, the gas heater is fixedly connected to the upper bottom wall of the supporting platform, the heating driving motor is arranged on the upper bottom wall of the gas heater, the heating conveying pipe penetrates through the Y-shaped three-way pipe, the gas heater and the compressed gas conveying pipe in a bending mode, and the gas heater is mechanically connected with the heating driving motor.

6. An artificial respirator for cardiology rescue according to claim 5, wherein: the gas humidifying unit comprises a gas humidifier, a moisture outlet and a moisture conveying conduit, the gas humidifier is fixedly connected to the upper bottom wall of the supporting platform, the moisture outlet penetrates through the upper bottom wall of the gas humidifier, and the moisture conveying conduit is arranged between the moisture outlet and the Y-shaped three-way pipe in a bent penetrating mode.

7. An artificial respirator for cardiology rescue according to claim 6, wherein: the Y-shaped three-way pipe is inverted Y-shaped and comprises a main through pipe and an auxiliary through pipe, the main through pipe penetrates between the lower end of the corrugated expansion pipe and the upper end of the heating conveying pipe, and the auxiliary through pipe penetrates between the main through pipe and the moisture conveying pipe.

8. An artificial respirator for cardiology rescue according to claim 7, wherein: the damping unit includes vibration damping bottom plate and big spring, the vibration damping bottom plate rigid coupling is on the last diapire of mobile unit, the even rigid coupling of big spring is between vibration damping bottom plate and supporting platform, the mobile unit is including supporting three hornblocks, spud pile, wheel body fixed plate, wheel carrier and wheel body, support three hornblocks rigid coupling on vibration damping bottom plate's lower diapire, the spud pile rigid coupling is on the lower diapire that supports three hornblocks, wheel body fixed plate rigid coupling is on the lower diapire of spud pile, the both sides of wheel carrier rigid coupling on the lower diapire of wheel body fixed plate, the wheel body coupling is between the wheel carrier.

9. An artificial respirator for cardiology rescue according to claim 8, wherein: the control panel comprises a panel body, a transmission control button, a humidification control button, a heating control button and a compression control button, the panel body is fixedly connected on the front side wall of the supporting platform, the transmission control button, the humidification control button, the heating control button and the compression control button are all arranged on the panel body, the transmission control button is arranged at the left end of the panel body, the humidification control button is arranged at the right side of the transmission control button, the heating control button is arranged on the right side of the humidifying control button, the compression control button is arranged on the right side of the heating control button, the transmission control button is electrically connected with the transmission supporting seat I and the transmission supporting seat II, the humidification control button is electrically connected with the gas humidifier, the heating control button is electrically connected with the heating driving motor, and the compression control button is electrically connected with the compression unit driving motor.

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