CN115738014A - Breathe internal medicine nursing from breathing monitoring function's breathing machine - Google Patents

Abstract

The invention provides a breathing machine with a breathing monitoring function for respiratory medicine nursing, and relates to the technical field of breathing machines. The breathing machine comprises a breathing machine main body, an oxygen supply assembly, an air outlet assembly and an oxygen mask, wherein the breathing machine main body is provided with an oxygen inlet and an exhalation outlet, the oxygen supply assembly is arranged in the breathing machine main body and is communicated with the oxygen inlet, the air outlet assembly is arranged in the breathing machine main body and is communicated with the exhalation outlet, the oxygen inlet is provided with an oxygen delivery outer tube, the exhalation outlet is provided with an exhalation outer tube, Y-shaped interfaces are arranged among one end of the oxygen delivery outer tube, one end of the exhalation outer tube and the oxygen mask, the oxygen mask is provided with a gas monitoring sensor, and disinfection protection assemblies are arranged on the breathing machine main body at the oxygen inlet and the exhalation outlet; the device can monitor the oxygen therapy condition of the patient in real time and accurately judge the breathing condition of the patient; and the oxygen inlet and the expiration exit on the breathing machine main body are provided with disinfection protection components, so that the oxygen inlet and the expiration exit can be effectively disinfected and protected.

Description

Breathe internal medicine nursing from breathing monitoring function's breathing machine

Technical Field

The invention relates to the technical field of breathing machines, in particular to a breathing machine with a breathing monitoring function for respiratory medicine nursing.

Background

In modern clinical medicine, a ventilator has been widely used in respiratory failure due to various reasons, anesthesia and breathing management during major surgery, respiratory support therapy and emergency resuscitation as an effective means for manually replacing the function of spontaneous ventilation, and has a very important position in the modern medical field. The breathing machine is a vital medical device which can prevent and treat respiratory failure, reduce complications and save and prolong the life of a patient.

When the existing respirator is used, an oxygen inlet and an exhalation outlet in the main body of the respirator are mostly in a naked state, sealing protection needs to be carried out by means of an external protective cover, and the respirator is inconvenient to use, so that the problems are solved.

Disclosure of Invention

The invention aims to provide a breathing machine with a breathing monitoring function for respiratory internal medicine nursing, which can monitor the oxygen therapy condition of a patient in real time and accurately judge the breathing condition of the patient; and the oxygen inlet and the expiration exit on the breathing machine main body are provided with disinfection protection components, so that the oxygen inlet and the expiration exit can be effectively disinfected and protected.

The embodiment of the invention is realized by the following steps:

the embodiment of the application provides a respirator with a respiration monitoring function for nursing in a respiratory medicine department, which comprises a respirator main body, an oxygen supply assembly, an air outlet assembly and an oxygen mask, wherein the respirator main body is provided with an oxygen inlet and an exhalation outlet; the breathing monitoring device and the electrocardio monitor are arranged on the breathing machine main body, and the breathing monitoring device, the gas monitoring sensor and the electrocardio monitor are electrically connected with the breathing machine main body.

In some embodiments of the present invention, the respiration monitoring device includes a placing box, a pulse detecting bracelet and a finger-clipped oximeter, the placing box is disposed on one side of the main body of the respirator, the detecting bracelet and the finger-clipped oximeter are both disposed in the placing box, and the detecting bracelet and the finger-clipped oximeter are both electrically connected to the main body of the respirator.

In some embodiments of the present invention, the electrocardiograph includes an electrocardiograph main body and an electrocardiogram display screen, the electrocardiograph main body is disposed on the ventilator main body, the electrocardiogram display screen is disposed on one side of the electrocardiograph main body, and the electrocardiogram display screen is electrically connected to the electrocardiograph main body.

In some embodiments of the present invention, the disinfection protection assembly includes a disinfection box and an ultraviolet disinfection lamp, the disinfection box is disposed on the main body of the ventilator, the ultraviolet disinfection lamp is disposed on an inner wall of the disinfection box, an opening is disposed on an outer side of the disinfection box, a position-limiting clamp is disposed at the opening, and a sealing door is disposed on an outer side of the disinfection box near the opening.

In some embodiments of the present invention, the air outlet module includes an expiratory tube, an air pump, a carbon dioxide concentration detection sensor, a first flow rate detection sensor, a filter, and a first proportional control valve, one end of the expiratory tube communicates with the expiratory outlet, one end of the expiratory tube communicates with the air pump, and the carbon dioxide concentration detection sensor, the first flow rate detection sensor, the filter, and the first proportional control valve are all disposed on the expiratory tube.

In some embodiments of the present invention, the filter includes a filter cartridge, and a coarse filter screen, an activated carbon filter screen, a photocatalyst filter screen, and an ultraviolet lamp are sequentially disposed in the filter cartridge.

In some embodiments of the present invention, the expiratory tube is further provided with a bacterial filter.

In some embodiments of the present invention, the oxygen supply assembly includes an oxygen supply tube, an inflator, an oxygen concentration detection sensor, a second flow rate detection sensor, and a second proportional control valve, the inflator is disposed in the ventilator body, one end of the oxygen supply tube is communicated with the oxygen inlet, the other end of the oxygen supply tube is communicated with the inflator, and the oxygen concentration detection sensor, the second flow rate detection sensor, and the second proportional control valve are disposed on the oxygen supply tube.

In some embodiments of the present invention, the oxygen supply module further includes a humidification heating module, the humidification heating module includes a humidification tank and a heating base, the heating base is disposed on the ventilator main body, the humidification tank is disposed on the heating base, the humidification tank is provided with a liquid injection port, a first oxygen port and a second oxygen port, the oxygen delivery outer tube includes a first oxygen tube and a second oxygen tube, two ends of the first oxygen tube are respectively communicated with the oxygen inlet and the first oxygen port, and two ends of the second oxygen tube are respectively communicated with the second oxygen port and the Y-shaped port.

In some embodiments of the present invention, an adjustable bracket is further disposed on one side of the main body of the ventilator, and a tube frame for supporting the oxygen therapy outer tube and the expiration outer tube is disposed at one end of the adjustable bracket.

In some embodiments of the present invention, a ventilator base is disposed at a bottom of the ventilator body, a standby power module is disposed in the ventilator base, the standby power module includes a voltage detection device, a power storage module and a power supply switch, the power supply switch is electrically connected to the power storage module, and the voltage detection device and the power supply switch are both electrically connected to the ventilator body.

Compared with the prior art, the embodiment of the invention has at least the following advantages or beneficial effects:

the utility model provides a breathe internal medicine nursing from breathing monitoring function's breathing machine, when using, wear the oxygen mask in patient's oronasal department, oxygen supply subassembly and outside oxygen source intercommunication in the breathing machine main part, breathe out oxygen through the oxygen import on the breathing machine main part through the oxygen supply subassembly, oxygen import department is equipped with the oxygen therapy outer tube, then send into the oxygen mask in through the Y type interface through the oxygen therapy outer tube, then supply patient's oxygen uptake, the gas that patient exhaled then can carry on the expiration outer tube through Y type interface, then communicate the subassembly department of giving vent to anger through the expiration export on the breathing machine main part, the gas discharge of patient's exhalation through the subassembly of giving vent to anger, thereby form a breathing cycle process, help patient breathes, alleviate the symptom, be equipped with gas monitoring sensor on the oxygen mask, can monitor the gas condition in the oxygen mask through gas monitoring sensor, including oxygen concentration, carbon dioxide concentration etc., in order to ensure that the breathing machine main part is to patient's oxygen supply, simultaneously also can take out the gas of patient's exhalation out, avoid causing the secondary injury to patient, guarantee patient's oxygen supply security, in addition, breathing machine main part side still is equipped with breathing monitoring device and breathing monitoring instrument, the gas monitoring instrument can be used for the patient's the heart physical sign, thereby the real-time monitoring instrument can be just can be in coordination, thereby the electrocardio parameter of monitoring of the patient, thereby, the electrocardio parameter of the monitoring of the patient can be realized.

In addition, be located above-mentioned oxygen import and the above-mentioned exhale the exit on the breathing machine main part and be equipped with disinfection protection component, can disinfect the protection to oxygen import and exhale the exit through disinfection protection component, avoid it directly to expose outside and receive the pollution, guarantee the health cleanliness factor of oxygen import and exhale the exit, improve device safety in utilization.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a front view of an oxygen supply assembly and an air output assembly in an embodiment of the invention;

FIG. 3 is a front cross-sectional view of a filter in an embodiment of the invention;

FIG. 4 is a schematic view of a sterilization shield assembly according to an embodiment of the present invention.

Icon: 1-a breathing machine main body, 101-an oxygen inlet, 102-an exhalation outlet, 103-a display screen, 104-an operation panel, 2-an oxygen supply component, 21-an oxygen delivery inner tube, 22-an inflator pump, 23-an oxygen concentration detection sensor, 24-a second flow detection sensor, 25-a second proportion regulating valve, 3-an air outlet component, 31-an exhalation inner tube, 32-an air pump, 33-a carbon dioxide concentration detection sensor, 34-a first flow detection sensor, 35-a filter, 351-a coarse filter screen, 352-an activated carbon filter screen, 353-a photocatalyst filter screen, 354-an ultraviolet lamp, 36-a first proportion regulating valve, a 4-an oxygen mask, 5-an oxygen delivery outer tube, 51-a first oxygen tube, 52-a second oxygen tube, 6-an exhalation outer tube, a 7-Y interface, 8-a gas monitoring sensor, 9-a disinfection protection component, 901-a disinfection box body, 902-an ultraviolet disinfection lamp, a sealed door, 904-a limit clamp, 10-a breathing machine monitoring device, a placement box, 1002-a detection bracelet, 1003-a standby finger ring, a power supply support, 11-a heating and humidifying filter, a heating and displaying module, 13-an electrocardiogram heating and a humidifying module, 13-a heating and displaying module, 13-an electrocardiogram heating and a humidifying module, 16-a display module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an orientation or a positional relationship based on an orientation or a positional relationship shown in the drawings, or an orientation or a positional relationship which is usually arranged when the product of the present invention is used, it is only for convenience of description and simplification of the description, but does not indicate or imply that the device or the element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used solely to distinguish one from another, and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Examples

Referring to fig. 1 to 4, the present embodiment provides a respirator with a respiration monitoring function for medical nursing, which includes a respirator main body 1, an oxygen supply assembly 2, an air outlet assembly 3 and an oxygen mask 4, wherein the respirator main body 1 is provided with an oxygen inlet 101 and an exhalation outlet 102, the oxygen supply assembly 2 is disposed in the respirator main body 1 and is communicated with the oxygen inlet 101, the air outlet assembly 3 is disposed in the respirator main body 1 and is communicated with the exhalation outlet 102, the oxygen inlet 101 is provided with an oxygen delivery outer tube 5, the exhalation outlet 102 is provided with an exhalation outer tube 6, a Y-shaped interface 7 is disposed between one end of the oxygen delivery outer tube 5, one end of the exhalation outer tube 6 and the oxygen mask 4, the oxygen mask 4 is provided with a gas monitoring sensor 8, and the respirator main body 1 is provided with a disinfection protection assembly 9 at the oxygen inlet 101 and the exhalation outlet 102; still include respiratory monitoring device 10 and electrocardio monitor 17, above-mentioned respiratory monitoring device 10 and above-mentioned electrocardio monitor 17 all locate above-mentioned breathing machine main part 1, and above-mentioned respiratory monitoring device 10, above-mentioned gas monitoring sensor 8 and above-mentioned electrocardio monitor 17 all with above-mentioned breathing machine main part 1 electric connection.

When in use, the oxygen mask 4 is worn at the mouth and nose of a patient, the oxygen supply component 2 in the respirator body 1 is communicated with an external oxygen source, oxygen is exhaled through the oxygen supply component 2 through the oxygen inlet 101 on the respirator body 1, the oxygen inlet 101 is provided with the oxygen delivery outer tube 5, then the oxygen is sent into the oxygen mask 4 through the oxygen delivery outer tube 5 and the Y-shaped interface 7, then the oxygen is inhaled by the patient, the gas exhaled by the patient is conveyed to the exhalation outer tube 6 through the Y-shaped interface 7 and then is communicated to the gas outlet component 3 through the exhalation outlet 102 on the respirator body 1, and the gas exhaled by the patient is exhausted through the gas outlet component 3, so that a breathing cycle process is formed to help the patient to breathe, alleviate the symptom, be equipped with gaseous monitoring sensor 8 on the oxygen mask 4, can monitor the gas condition in the oxygen mask 4 through gaseous monitoring sensor 8, including oxygen concentration, carbon dioxide concentration etc, it is enough to ensure that breathing machine main part 1 supplies the oxygen volume to patient, also can take out the gas of patient's exhalation simultaneously, avoid causing the secondary damage to patient, guarantee patient's oxygen suppliment security, furthermore, 1 one side of breathing machine main part still is equipped with respiratory monitoring device 10 and electrocardio monitor, can be used for detecting patient's respiratory condition and heart condition of beating, mutually support with gaseous monitoring sensor 8, just can know patient's physical sign parameter in real time, thereby ensure that patient's breathing is healthy.

In addition, the main body 1 of the breathing machine is provided with the disinfection and protection assembly 9 at the oxygen inlet 101 and the exhalation outlet 102, the oxygen inlet 101 and the exhalation outlet 102 can be disinfected and protected by the disinfection and protection assembly 9, the direct exposure outside and the pollution can be avoided, the sanitation and cleanliness of the oxygen inlet 101 and the exhalation outlet 102 can be ensured, and the use safety of the device can be improved.

It should be noted that the breathing apparatus main body 1 is further provided with a display screen 103 and an operation panel 104, the breathing condition of the patient can be displayed through the display screen 103, and the parameters of the breathing apparatus main body 1 can be adjusted through the operation panel 104.

Further, in some embodiments of the present invention, the respiration monitoring device 10 includes a placing box 1001, a pulse detecting bracelet 1002 and a finger-clipped oximeter 1003, the placing box 1001 is disposed on one side of the respirator body 1, the detecting bracelet and the finger-clipped oximeter 1003 are both disposed in the placing box 1001, and both the detecting bracelet and the finger-clipped oximeter 1003 are electrically connected to the respirator body 1.

In the above embodiment, the placing box 1001 can protect the pulse detection bracelet 1002 and the finger clip type blood oxygen detector 1003, when in use, wear the pulse detection bracelet 1002 at the wrist of the patient, so as to monitor the pulse beating condition of the patient, the finger clip type blood oxygen detector 1003 is clipped on the finger of the patient, so as to detect the blood oxygen value of the patient, and simultaneously, transmit the detected pulse data and the blood oxygen value to the respirator body 1, the control system inside the respirator body 1 can intelligently adjust the working conditions of the oxygen supply component 2 and the air outlet component 3 according to the data, thereby ensure the oxygen supply of different patients, the air outlet is suitable, and the patient can breathe more comfortably.

Furthermore, the electrocardiograph 17 includes an electrocardiograph main body 171 and an electrocardiogram display screen 172, the electrocardiograph main body 171 is disposed on the ventilator main body 1, the electrocardiogram display screen 172 is disposed on one side of the electrocardiograph main body 171, and the electrocardiogram display screen 172 is electrically connected to the electrocardiograph main body 171.

When the electrocardiogram monitoring instrument is used, the heart beating condition of a patient is monitored through the electrocardiogram monitoring instrument main body 171, and the electrocardiogram of the patient is displayed in real time through the electrocardiogram display screen 172, so that a doctor can adjust parameters of the respirator main body 1 according to the electrocardiogram of the patient, and oxygen is supplied to the patient better.

Further, in some embodiments of the present invention, the disinfection protection assembly 9 includes a disinfection box 901 and an ultraviolet disinfection lamp 902, the disinfection box 901 is disposed on the ventilator main body 1, the ultraviolet disinfection lamp 902 is disposed on an inner wall of the disinfection box 901, an opening is disposed on an outer side of the disinfection box 901, a limit clip 904 is disposed at the opening, and a sealing door 903 is disposed on an outer side of the disinfection box 901 near the opening.

In the above embodiment, the sterilization box 901 is disposed on the ventilator main body 1, and can cover the oxygen inlet 101 and the exhalation outlet 102 for protecting them from dust, and meanwhile, the ultraviolet sterilization lamp 902 is disposed in the sterilization box 901, and can sterilize and disinfect the oxygen inlet 101 and the exhalation outlet 102, thereby ensuring the sanitation and cleanliness of the oxygen inlet 101 and the exhalation outlet 102; the disinfection box 901 is provided with an opening on the outer side, so that the oxygen delivery outer tube 5 and the expiration outer tube 6 can extend into the disinfection box, and then are respectively communicated with the oxygen inlet 101 and the expiration outlet 102, when the disinfection box is not used, the oxygen delivery outer tube 5 and the expiration outer tube 6 can be taken down, then the sealing door 903 is closed, and the disinfection box 901 is sealed, so that the oxygen inlet 101 and the expiration outlet 102 are protected from dust and bacteria.

In addition, the opening part of disinfection box 901 is equipped with spacing clamp 904, can carry out the centre gripping to oxygen therapy outer tube 5 and expiration outer tube 6 through spacing clamp 904 fixed, prevent to a certain extent that the pipeline from droing, and is concrete, above-mentioned spacing clamp 904 is equipped with two sets ofly, and arbitrary a set of spacing clamp 904 all includes the elasticity splint that two symmetries set up, and elasticity splint include spring and arc, applys elasticity through the spring to the arc that makes the correspondence presss from both sides the pipeline that tightly corresponds to middle motion, prevents that the pipeline from droing.

Further, the air outlet module 3 includes an expiratory tube 31, a suction pump 32, a carbon dioxide concentration detection sensor 33, a first flow rate detection sensor 34, a filter 35, and a first proportional control valve 36, one end of the expiratory tube 31 communicates with the expiratory outlet 102, one end of the expiratory tube 31 communicates with the suction pump 32, and the carbon dioxide concentration detection sensor 33, the first flow rate detection sensor 34, the filter 35, and the first proportional control valve 36 are all provided on the expiratory tube 31.

When in use, the air pump 32 can generate suction force, then the expired air in the oxygen mask 4 is pumped out through the expired air inner tube 31, the expired air outlet 102 and the expired air outer tube 6 and then discharged, the carbon dioxide concentration detection sensor 33, the first flow detection sensor 34, the filter 35 and the first proportional control valve 36 are arranged on the expired air inner tube 31, the first flow detection sensor 34 can detect the gas flow rate in the expired air inner tube 31, the communication state of the expired air inner tube 31 can be adjusted through the first proportional control valve 36, so as to control the exhaust rate, the filter 35 can filter the gas discharged from the expired air inner tube 31, so as to filter harmful bacteria, impurities and the like in the waste gas, ensure the cleanness of the discharged gas, and avoid the indoor environment from being polluted, the carbon dioxide concentration detecting sensor 33 can detect the carbon dioxide concentration in the expiratory tube 31, so as to determine whether to pump out the exhaust gas discharged by the patient, thereby determining the pumping power of the pumping pump 32 and the opening degree of the first proportional regulating valve 36, and in addition, determining whether the oxygen supply amount is sufficient or excessive by detecting the carbon dioxide concentration, for example, when the carbon dioxide concentration detecting sensor 33 detects that the carbon dioxide concentration is too large, at this time, the pumping power of the pumping pump 32 and the opening degree of the first proportional regulating valve 36 can be increased, so as to rapidly pump out the carbon dioxide, and if the carbon dioxide concentration is too small, the pumping power of the pumping pump 32 and the opening degree of the first proportional regulating valve 36 can be properly reduced, and the carbon dioxide concentration is fed back to the ventilator body 1, so as to determine whether the oxygen supply amount is excessive.

In some embodiments of the present invention, the filter 35 includes a filter cartridge, and the filter cartridge includes a coarse filter screen 351, an activated carbon filter screen 352, a photocatalyst filter screen 353, and an ultraviolet lamp 354 in sequence.

In the above embodiment, coarse filter screen 351, activated carbon filter screen 352, photocatalyst filter screen 353 and ultraviolet lamp 354 are arranged in the filter cylinder in proper order, when using, firstly filter the impurity in the exhaust gas through coarse filter screen 351, then further filter suspended solid in the gas through activated carbon filter screen 352, micronic dust etc. and disinfect to gas, and ultraviolet lamp 354 can send ultraviolet light, shine on photocatalyst filter screen 353, further disinfect the gas through photocatalyst filter screen 353, ultraviolet light also can play the effect of disinfecting simultaneously, thereby improve the filter effect of filter 35, guarantee the sanitary cleanliness factor of gas outgoing.

Further, the exhalation inner tube 31 is provided with a bacterial filter 11.

The bacteria filter 11 can filter the bacteria of the gas flowing through the expiration inner tube 31, thereby reducing the bacterial outflow and ensuring the sanitary safety of the discharged gas.

Further, the oxygen supply module 2 includes an oxygen supply tube 21, an inflator 22, an oxygen concentration detection sensor 23, a second flow rate detection sensor 24, and a second proportional control valve 25, wherein the inflator 22 is provided in the ventilator main body 1, one end of the oxygen supply tube 21 is communicated with the oxygen inlet 101, the other end of the oxygen supply tube 21 is communicated with the inflator 22, and the oxygen concentration detection sensor 23, the second flow rate detection sensor 24, and the second proportional control valve 25 are provided on the oxygen supply tube 21.

When the oxygen mask is used, the inflator 22 is communicated with an external oxygen source, so that external oxygen is input into the oxygen mask 4 through the oxygen input inner tube 21, the oxygen inlet 101, the oxygen input outer tube 5 and the Y-shaped interface 7, and oxygen is supplied to a patient, the oxygen concentration detection sensor 23, the second flow detection sensor 24 and the second proportional control valve 25 are arranged on the oxygen input inner tube 21, the oxygen concentration can be detected in real time through the oxygen concentration detection sensor 23, the situation that the oxygen concentration is too high or too low to affect the oxygen inhalation comfort level of the patient is avoided, the oxygen delivery rate can be detected in real time through the second flow detection sensor 24, the situation that the oxygen delivery rate is too slow or too fast to affect the oxygen inhalation comfort level is avoided, the second proportional control valve 25 can be used for controlling the opening and closing degree of the oxygen input inner tube 21, so as to control the oxygen delivery pressure and delivery volume, the real-time online detection is realized through the oxygen concentration detection sensor 23, the second flow detection sensor 24 and the second proportional control valve 25, and the real-time online detection is realized, and the comfort level of the patient inhalation comfort level is ensured.

Furthermore, the oxygen supply module 2 further comprises a humidification and warming module 12, the humidification and warming module 12 comprises a humidification tank 121 and a heating base 122, the heating base 122 is disposed on the ventilator main body 1, the humidification tank 121 is disposed on the heating base 122, the humidification tank 121 is provided with a liquid injection port, a first oxygen port and a second oxygen port, the oxygen delivery outer tube 5 comprises a first oxygen tube 51 and a second oxygen tube 52, two ends of the first oxygen tube 51 are respectively communicated with the oxygen inlet 101 and the first oxygen port, and two ends of the second oxygen tube 52 are respectively communicated with the second oxygen port and the Y-shaped interface 7.

Wherein humidification jar 121 can wet the oxygen of carrying, guarantee the wettability of oxygen, and heating base 122 then can heat humidification jar 121, thereby guarantee the temperature of oxygen therapy, avoid the oxygen temperature to hang down and amazing patient, when using, be equipped with on humidification jar 121 and annotate the liquid mouth, can be to the interior injected liquid of humidification jar 121, be used for wetting oxygen, oxygen therapy outer tube 5 includes first oxygen pipe 51 and second oxygen pipe 52, then can communicate with first oxygen port and second oxygen port on humidification jar 121 respectively, then send into the oxygen that oxygen suppliment subassembly 2 carried in humidification jar 121 moist and heat, then through second oxygen pipe 52 in 7 input oxygen face masks 4 of Y type interface, make the patient inhale moist, the oxygen that the temperature is suitable, improve the oxygen uptake comfort level.

Furthermore, an adjustable bracket 13 is further provided at one side of the ventilator main body 1, and a tube frame 14 for supporting the oxygen therapy outer tube 5 and the expiration outer tube 6 is provided at one end of the adjustable bracket 13.

The positions of the oxygen therapy outer tube 5 and the expiration outer tube 6 can be adjusted through the adjustable support 13, so that pipeline winding in the oxygen therapy process is avoided, meanwhile, the interference to the oxygen therapy of a patient is also reduced, and the oxygen therapy outer tube 5 and the expiration outer tube 6 are placed at proper positions.

Further, a ventilator base 15 is disposed at the bottom of the ventilator main body 1, a standby power module 16 is disposed in the ventilator base 15, the standby power module 16 includes a voltage detection device 161, an electricity storage module 163 and a power supply switch 162, the power supply switch 162 is electrically connected to the electricity storage module 163, and both the voltage detection device 161 and the power supply switch 162 are electrically connected to the ventilator main body 1.

The breathing machine base 15 can support the breathing machine main body 1 to enable the breathing machine main body 1 to work stably, and the standby power supply module 16 is arranged in the breathing machine base 15 and can be used for providing electric energy for the breathing machine in an emergency under the power-off condition to ensure that the breathing machine main body 1 can work normally; during the use, voltage detection device 1 can real-time detection breathing machine main part 1's voltage stability, when the voltage that detects breathing machine main part 1 is unusual for example when the outage, just can make power supply switch 162 open immediately to with accumulate module 163 and breathing machine main part 1 inner circuit intercommunication, make accumulate module 163 can provide the electric energy for breathing machine main part 1, make breathing machine main part 1 continue to work, do not influence patient's treatment.

Alternatively, the power storage module 163 may be a commercially available battery.

In summary, the embodiment of the present invention provides a respirator with a respiration monitoring function for nursing in a respiratory medicine department, when in use, the oxygen mask 4 is worn at the mouth and nose of a patient, the oxygen supply component 2 in the respirator body 1 is communicated with an external oxygen source, oxygen is exhaled through the oxygen supply component 2 via the oxygen inlet 101 on the respirator body 1, the oxygen inlet 101 is provided with an oxygen delivery outer tube 5, then the oxygen is sent into the oxygen mask 4 via the oxygen delivery outer tube 5 via the Y-shaped interface 7 and is then used for the patient to inhale oxygen, gas exhaled by the patient is sent to the exhalation outer tube 6 via the Y-shaped interface 7 and then is communicated to the gas outlet component 3 via the exhalation outlet 102 on the respirator body 1, and the gas exhaled by the patient is exhausted via the gas outlet component 3, thereby form a breathing cycle process, help patient breathes, alleviate the symptom, be equipped with gaseous monitoring sensor 8 on the oxygen mask 4, can monitor the gas state in the oxygen mask 4 through gaseous monitoring sensor 8, including oxygen concentration, carbon dioxide concentration etc, it is enough to ensure that breathing machine main part 1 is to patient's oxygen supply volume, also can take out the gas of patient's exhalation simultaneously, avoid causing the secondary damage to patient, guarantee patient oxygen suppliment security, furthermore, 1 one side of breathing machine main part still is equipped with respiratory monitoring device 10, breathing state through respiratory monitoring device 10 real-time detection patient, through mutually supporting with gaseous monitoring sensor 8, just can know patient's breathing state in real time, thereby ensure that patient's breathing is healthy.

In addition, the main body 1 of the breathing machine is provided with the disinfection and protection assembly 9 at the oxygen inlet 101 and the exhalation outlet 102, the oxygen inlet 101 and the exhalation outlet 102 can be disinfected and protected by the disinfection and protection assembly 9, the direct exposure outside and the pollution can be avoided, the sanitation and cleanliness of the oxygen inlet 101 and the exhalation outlet 102 can be ensured, and the use safety of the device can be improved.

The present invention has been described in terms of the preferred embodiment, and it is not intended to be limited to the embodiment. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A breathing machine with a breathing monitoring function for nursing in the department of respiratory medicine is characterized by comprising a breathing machine main body, an oxygen supply assembly, an air outlet assembly and an oxygen mask, wherein an oxygen inlet and an expiration outlet are formed in the breathing machine main body; the breathing monitoring device and the electrocardio monitor are all arranged on the respirator main body, and the breathing monitoring device and the gas monitoring sensor are all electrically connected with the respirator main body.

2. The respirator of claim 1, wherein the respiration monitoring device comprises a placement box, a pulse detection bracelet and a finger-clipped oximeter, the placement box is disposed on one side of the respirator body, the detection bracelet and the finger-clipped oximeter are disposed in the placement box, and the detection bracelet and the finger-clipped oximeter are electrically connected to the respirator body.

3. The respirator of claim 1, wherein the electrocardiograph comprises an electrocardiograph main body and an electrocardiogram display screen, the electrocardiograph main body is arranged on the respirator main body, the electrocardiogram display screen is arranged on one side of the electrocardiograph main body, and the electrocardiogram display screen is electrically connected with the electrocardiograph main body.

4. The respirator with the respiration monitoring function for nursing in the department of respiratory medicine according to claim 1, wherein the disinfection and protection assembly comprises a disinfection box body and an ultraviolet disinfection lamp, the disinfection box body is arranged on the main body of the respirator, the ultraviolet disinfection lamp is arranged on the inner wall of the disinfection box body, an opening is arranged on the outer side of the disinfection box body, a limit clamp is arranged at the opening, and a sealing door is arranged on the outer side of the disinfection box body, which is close to the opening.

5. The breathing machine with the breathing monitoring function for nursing in department of respiratory medicine according to claim 1, wherein the air outlet assembly comprises an expiratory tube, a suction pump, a carbon dioxide concentration detection sensor, a first flow detection sensor, a filter and a first proportional control valve, one end of the expiratory tube is communicated with the expiratory outlet, one end of the expiratory tube is communicated with the suction pump, the carbon dioxide concentration detection sensor, the first flow detection sensor, the filter and the first proportional control valve are all arranged on the expiratory tube, and a bacterial filter is further arranged on the expiratory tube.

6. The respirator of claim 5, wherein the filter comprises a filter cartridge, and a coarse filter screen, an activated carbon filter screen, a photocatalyst filter screen and an ultraviolet lamp are sequentially arranged in the filter cartridge.

7. The respirator of claim 1, wherein the oxygen supply assembly comprises an oxygen supply inner tube, an inflator pump, an oxygen concentration detection sensor, a second flow detection sensor and a second proportional control valve, the inflator pump is arranged in the respirator body, one end of the oxygen supply inner tube is communicated with the oxygen inlet, the other end of the oxygen supply inner tube is communicated with the inflator pump, and the oxygen concentration detection sensor, the second flow detection sensor and the second proportional control valve are all arranged on the oxygen supply inner tube.

8. The breathing internal medicine nursing is from breathing monitoring function's breathing machine of claim 1, characterized in that, the oxygen suppliment subassembly still includes the humidifying subassembly that heats, the humidifying subassembly that heats includes humidifying jar and heating base, the heating base is located in the breathing machine main part, the humidifying jar is located on the heating base, be equipped with on the humidifying jar and annotate liquid mouth, first oxygen gas port and second oxygen port, the oxygen therapy outer tube includes first oxygen pipe and second oxygen pipe, first oxygen pipe's both ends respectively with the oxygen import with first oxygen port intercommunication, second oxygen pipe's both ends respectively with the second oxygen port with Y type interface intercommunication.

9. The respirator of claim 1, wherein an adjustable support is further arranged on one side of the main body of the respirator, and a pipe support for supporting the oxygen therapy outer pipe and the expiration outer pipe is arranged at one end of the adjustable support.

10. The respirator of claim 1, wherein a respirator base is arranged at the bottom of the respirator body, a standby power module is arranged in the respirator base, the standby power module comprises a voltage detection device, an electricity storage module and a power supply switch, the power supply switch is electrically connected with the electricity storage module, and the voltage detection device and the power supply switch are both electrically connected with the respirator body.

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