CN205198627U - Breathing machine treatment quality control system - Google Patents

Abstract

The utility model provides a breathing machine treatment quality control system, includes the breathing machine, oxygen source is connected with the breathing machine, velocity of flow sensor, collection ventilator circuit's the velocity of flow and waveform information, pressure sensor gathers pressure and waveform information among the ventilator circuit, oxygen concentration sensor gathers oxygen source's oxygen passageway and/or the oxygen concentration information among the ventilator circuit, the oxygen flow rate sensor, the velocity of flow information of gathering oxygen pipeline, wireless oxyhemoglobin saturation appearance, collection user's oxyhemoglobin saturation and pulse frequency information, the CO2 waveform information of exhalation end in user's CO2 partial pressure information or the breathing machine user pipeline is gathered to wireless CO2 monitor, monitor terminal contrasts above -mentioned data, when the activate the alarm ware appearing not not simultaneously with setting for the threshold value, high in the clouds for save above -mentioned data. Can obtain user's breathing machine treatment compliance and treatment in monitor terminal or high in the clouds in real time, the state parameter of equipment in the real -time supervision respiratory therapy system ensures that the breathing machine treatment is safe effective.

Description

A kind of respirator treatment quality control system

Technical field

This utility model belongs to respiratory therapy technical field, is specifically related to a kind of respirator treatment method for quality control and system thereof.

Background technology

Respirator treatment refers to the mechanical forces by Prosthesis, produces or strengthen respiratory movement and the respiratory function of patient.During air-breathing, breathing function is by air, oxygen or air-oxygen gaseous mixture press-in trachea-bronchial epithelial cell and lung, and generation or auxiliary lung intermittently expand; During expiration, respirator both can utilize the elastical retraction of lung and thorax make alveolar collapse and produce expiration.Respirator the auxiliary of Prosthesis with under controlling, makes lung intermittently expand and wither just, produces respiratory movement, maintains or improve ventilation and the ventilation of lung, correct or alleviate scarce O ₂with CO ₂retention, reaches the effect maintaining normal respiratory function.

Before this utility model, carrying out to there being wound respirator treatment that total quality control just can must complete under hospital intensive care room (ICU or CCU) or transition care unit (Transitionalcareunit) have the monitoring of respiratory therapist, is even monitoring in 24 hours if desired.The defect of the method mainly contains:

1. respiratory therapist personnel are in short supply;

2. medical expense is high;

3. expend medical personnel and a large amount of energy of respiratory therapist;

4. Use of respirator person can not arrive community hospital, even completes respirator treatment in family, greatly reduces the quality of life of Use of respirator person;

5. Use of respirator person medical expense is high;

6. take advanced medical resource in short supply for stablizing regular Use of respirator person.

In addition, noninvasive ventilator treatment is more and more extensive in China's application, has become a kind of conventional therapy means, even for chronic remission stage patient, become the important means of family therapy at Pneumology Department.The above-mentioned defect having wound respirator treatment is equally used in hospital for noninvasive ventilator treatment; The main method that the noninvasive ventilator therapeutic quality implemented in family at present manages is as follows:

1, the training of the relevant knowledge such as respirator equipment and interface medium (face shield) is carried out for user, user is allowed to grasp the operation of more relevant devices as much as possible, normal to run and the knowledge of abnormal warning, if require user to note abnormalities after problem in time and plant maintenance personnel contact.

2, compliance raising is main by health education, promotes patient to the cognition of breathing and treat, promotes that it uses wish; Compliance monitoring is mainly through providing questionnaire information table to patient, allow its from fill out or arrangement personnel assist fill in, the method complicated operation, length consuming time, and the information collected is subjective information but not objective information, information error is large, because pinpointing the problems not in time, improves Intervention Timing and effect is all undesirable.

3, therapeutic effect monitoring is main relies on patient oneself purchase measurement device, and generally only have blood oxygen saturation monitoring and pulse frequency monitoring, oneself reports the related personnel such as medical personnel after detecting, and main dependence is directly to medical institutions' further consultation of specifying.

Generally speaking, in compliance and therapeutic effect, family's noninvasive ventilator therapeutic quality management means generally compares shortage, and monitoring effect is poor.

Summary of the invention

This utility model is from respirator and the running state monitoring of peripheral equipment, the respirator treatment compliance monitoring of patient and therapeutic effect monitoring, the theory of respirator treatment total quality control is proposed, and design by means of wireless communication technique, cloud memory technology and the mobile terminals such as internet of things sensors technology, intelligent router and corresponding hommization APP, propose a kind of respirator treatment quality control system, guarantee the safety of respirator treatment, effectiveness.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of respirator treatment quality control system of this utility model, comprises

Respirator,

Oxygen source, is connected with respirator

Flow sensor, gathers the flow velocity of breathing machine pipeline and shape information and is sent to high in the clouds and monitor terminal;

Pressure transducer, gathers the pressure in breathing machine pipeline and shape information, and is sent to high in the clouds and monitor terminal;

Oxygen concentration sensor, gathers the oxygen concentration information in the oxygen channel of oxygen source and/or breathing machine pipeline and is sent to high in the clouds and monitor terminal;

Oxygen gas flow rate sensor, gathers the flow rate information of oxygen channel and is sent to high in the clouds and monitor terminal;

Radio blood oxygen saturation instrument, gathers blood oxygen saturation and the pulse frequency information of user, is sent to monitor terminal and high in the clouds

Wireless CO ₂monitor, gathers the CO of user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information, and be sent to monitor terminal and high in the clouds;

Monitor terminal, for the CO of the oxygen concentration information according to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information and setting threshold comparison, when occurring different, start alarm;

High in the clouds, for storing the CO of breathing machine pipeline flow velocity and shape information, the oxygen concentration information of breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information.

Wherein, also comprise signal processing circuit, for the CO by the oxygen concentration information of breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information process, is sent to high in the clouds and monitor terminal through intelligent router.

Wherein, also comprise time counter, for the CO of the oxygen concentration information to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information is carried out time mark and is sent to monitor terminal and high in the clouds;

Wherein, described oxygen source accesses the gas input of described respirator.

Wherein, described oxygen source accesses the gas output end of described respirator.

Described respirator treatment management method, by equipment Inspection, doctor's advice compliance and therapeutic effect three part Collaborative Control, achieves the closed loop control of whole therapeutic process.

One, equipment Inspection part

Functional part in equipment is monitored and record;

1, independent monitoring is carried out to device power supply (DPS), sensor and drive part, watch-dog external power supply AC and internal electric source DC(battery); Monitor flow sensor, pressure transducer, oxygen concentration sensor, the CO relevant to respirator treatment ₂concentration sensors etc. are abnormal; The temperature of watch-dog motor and the working order of motor; Changing factor recorded and detects, as carried out record to the position of oxygen receiving port, record being carried out to the face shield type that patient uses, enables equipment identify different user types, and then improve monitoring and control accuracy;

2, such as filter silk floss, by the record using duration and access times, monitor the usage degree of filter silk floss, when duration and number of times exceed threshold value, alarm is changed, and greatly facilitates user and uses, also make complete machine maintain stable therapeutic effect;

3, pipeline, by the record to equipment use duration and access times, judges the service life of pipeline and the sealing of pipeline, and prompting user service conduit, guarantees machine normal operation.

4, larger to patient effect data division carries out independent monitoring

Such as low respiratory frequency, high respiratory frequency, low ventilation, suffocate, the parameter information in Real-time Collection machine, with setting threshold comparison, judges user whether as above-mentioned several situation, and alarm, the life security of guarantee user and therapeutic effect.

Two, doctor's advice compliance

First analyze the treatment prescription that doctor's advice i.e. doctor are opened, therapeutic process is divided into multiple stage, the output data in each stage and the sign of patient carry out combinative analysis, guarantee that deferring to prescription treats;

Equipment continuously or setting reminder time be 1-40 minute each, the setup pressure value in passage and threshold value or air leakage and tidal volume are monitored.

Three, therapeutic effect monitoring

1, respectively to the carbon dioxide indicator of patient, the blood oxygen protection degree index Real-Time Monitoring of patient,

2, analyze ventilation, average tidal volume, respiratory frequency per minute, the ventilation per minute of statistics user, analyse and compare;

3, the equipment use state of user is analyzed, concrete analysis inward mask leakage amount, autonomous respiration Triggering percentage.

Beneficial effect is as follows:

1. reduce the workload of respiratory therapist and medical personnel;

2. reduce the medical expense of Use of respirator person;

3. the Use of respirator person of stable phase at community or family's row respirator treatment, can improve the quality of life of Use of respirator person greatly;

4. plant maintenance personnel understand respirator and relevant device behaviour in service by high in the clouds, reduce invalid service, improve service quality and efficiency;

5. for respirator treatment teacher and medical personnel high in the clouds management Use of respirator person provide detailed data, and closed loop management can be realized;

6. provide the environment of the platform under large Data support for medical investigator carries out breathing the Study of evidence based medicine of class, respirator treatment method for quality control can be deepened further.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model embodiment 1.

Fig. 2 is the structural representation of this utility model embodiment 2.

Fig. 3 is the structural representation of this utility model embodiment 3.

Fig. 4 is the structural representation of this utility model embodiment 4.

1. the wireless CO of respirator 2. flow sensor 3. pressure transducer 4. ₂monitor 5. radio blood oxygen saturation instrument 6. Use of respirator person 7. oxygen concentration sensor.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, this utility model is described in detail.

Embodiment 1

As shown in Figure 1, a kind of respirator treatment quality control system, comprises

Respirator 1,

Oxygen source, the gas output end of access respirator 1;

Flow sensor 2, gathers the flow velocity of breathing machine pipeline and shape information and is sent to high in the clouds and monitor terminal;

Pressure transducer 3, gathers the pressure in breathing machine pipeline and shape information, and is sent to high in the clouds and monitor terminal;

Oxygen concentration sensor 7, gathers the oxygen concentration information in oxygen channel and/or breathing machine pipeline and is sent to high in the clouds and monitor terminal;

Oxygen gas flow rate sensor 2, gathers the flow rate information of oxygen channel and is sent to high in the clouds and monitor terminal;

Radio blood oxygen saturation instrument 5, gathers blood oxygen saturation and the pulse frequency information of user, is sent to monitor terminal and high in the clouds

Wireless CO2 monitor 4, gathers the CO of user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information, and be sent to monitor terminal and high in the clouds;

Signal processing circuit, for the CO by the oxygen concentration information of breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information process, is sent to high in the clouds and monitor terminal through intelligent router;

Monitor terminal, for the CO of the oxygen concentration information according to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information and setting threshold comparison, when occurring different, start alarm

Time counter, for the CO of the oxygen concentration information to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information is carried out time mark and is sent to monitor terminal and high in the clouds;

High in the clouds, for storing the CO of the breathing machine pipeline flow velocity after time counter labelling and shape information, the oxygen concentration information of breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information.

Oxygen source is from patient's access, and namely access from the outfan of respirator 1, oxygen concentration flow transducer, oxygen concentration sensor 7 detect oxygen concentration, the oxygen flow information of the oxygen channel of oxygen source; Be integrated in respirator 1 by flow sensor 2, pressure transducer 3 and signal processing control circuit, signal processing control circuit is sent to high in the clouds and monitor terminal, for medical worker by Zigbee or bluetooth or WIFI through intelligent router simultaneously.

Embodiment 2

As shown in Figure 2, a kind of respirator treatment quality control system, comprises

Respirator 1,

Oxygen source, the gas input of access respirator 1;

Flow sensor 2, gathers the flow velocity of breathing machine pipeline and shape information and is sent to high in the clouds and monitor terminal;

Pressure transducer 3, gathers the pressure in breathing machine pipeline and shape information, and is sent to high in the clouds and monitor terminal;

Oxygen concentration sensor 7, gathers the oxygen concentration information in oxygen channel and/or breathing machine pipeline and is sent to high in the clouds and monitor terminal;

Radio blood oxygen saturation instrument 5, gathers blood oxygen saturation and the pulse frequency information of user, is sent to monitor terminal and high in the clouds

Wireless CO2 monitor 4, gathers the CO of user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information, and be sent to monitor terminal and high in the clouds;

Signal processing circuit, for the CO by the oxygen concentration information of breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information process, is sent to high in the clouds and monitor terminal through intelligent router;

Monitor terminal, for the CO of the oxygen concentration information according to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information and setting threshold comparison, when occurring different, start alarm

Time counter, for the CO of the oxygen concentration information to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information is carried out time mark and is sent to monitor terminal and high in the clouds;

High in the clouds, for storing the CO of the breathing machine pipeline flow velocity after time counter labelling and shape information, the oxygen concentration information of breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information.

Oxygen source accesses from the input of respirator 1, oxygen concentration flow transducer, oxygen concentration sensor 7 is detected oxygen concentration, oxygen flow information in breathing machine pipeline; Be integrated in respirator 1 by flow sensor 2, pressure transducer 3 and signal processing control circuit, signal processing control circuit is sent to high in the clouds and monitor terminal, for medical worker by Zigbee or bluetooth or WIFI through intelligent router simultaneously.

Embodiment 3

As shown in Figure 3, a kind of respirator treatment quality control system, comprises

Respirator 1,

Oxygen source, the gas output end of access respirator 1;

Flow sensor 2, gathers the flow velocity of breathing machine pipeline and shape information and is sent to high in the clouds and monitor terminal;

Pressure transducer 3, gathers the pressure in breathing machine pipeline and shape information, and is sent to high in the clouds and monitor terminal;

Oxygen concentration sensor 7, gathers the oxygen concentration information in oxygen channel and/or breathing machine pipeline and is sent to high in the clouds and monitor terminal;

Oxygen gas flow rate sensor 2, gathers the flow rate information of oxygen channel and is sent to high in the clouds and monitor terminal;

Radio blood oxygen saturation instrument 5, gathers blood oxygen saturation and the pulse frequency information of user, is sent to monitor terminal and high in the clouds

Wireless CO2 monitor 4, gathers the CO of user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information, and be sent to monitor terminal and high in the clouds;

Signal processing circuit, for the CO by the oxygen concentration information of breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information process, is sent to high in the clouds and monitor terminal through intelligent router;

Monitor terminal, for the CO of the oxygen concentration information according to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information and setting threshold comparison, when occurring different, start alarm

Time counter, for the CO of the oxygen concentration information to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information is carried out time mark and is sent to monitor terminal and high in the clouds;

High in the clouds, for storing the CO of the breathing machine pipeline flow velocity after time counter labelling and shape information, the oxygen concentration information of breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information.

Oxygen source is from patient's access, and namely access from the outfan of respirator 1, oxygen concentration flow transducer, oxygen concentration sensor 7 detect oxygen concentration, the oxygen flow information of the oxygen channel of oxygen source;

Flow sensor 2, pressure transducer 3 and signal processing control circuit are placed in breathing machine pipeline, and signal processing control circuit is sent to high in the clouds and monitor terminal, for medical worker by Zigbee or bluetooth or WIFI through intelligent router.Present embodiment completes monitoring, applied range when can not change existing respirator 1.

Embodiment 4

As shown in Figure 4, a kind of respirator treatment quality control system, comprises

Respirator 1,

Oxygen source, the gas input of access respirator 1;

Flow sensor 2, gathers the flow velocity of breathing machine pipeline and shape information and is sent to high in the clouds and monitor terminal;

Pressure transducer 3, gathers the pressure in breathing machine pipeline and shape information, and is sent to high in the clouds and monitor terminal;

Oxygen concentration sensor 7, gathers the oxygen concentration information in oxygen channel and/or breathing machine pipeline and is sent to high in the clouds and monitor terminal;

Radio blood oxygen saturation instrument 5, gathers blood oxygen saturation and the pulse frequency information of user, is sent to monitor terminal and high in the clouds

Wireless CO2 monitor 4, gathers the CO of user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information, and be sent to monitor terminal and high in the clouds;

Signal processing circuit, for the CO by the oxygen concentration information of breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information process, is sent to high in the clouds and monitor terminal through intelligent router;

Monitor terminal, for the CO of the oxygen concentration information according to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information and setting threshold comparison, when occurring different, start alarm;

Time counter, for the CO of the oxygen concentration information to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information is carried out time mark and is sent to monitor terminal and high in the clouds;

High in the clouds, for storing the CO of the breathing machine pipeline flow velocity after time counter labelling and shape information, the oxygen concentration information of breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person 6 pipeline the CO of end ₂shape information.

Oxygen source accesses from the input of respirator 1, oxygen concentration flow transducer, oxygen concentration sensor 7 is detected oxygen concentration, oxygen flow information in breathing machine pipeline; Oxygen flow sensor 2, pressure transducer 3 and signal processing control circuit are placed in breathing machine pipeline, and signal processing control circuit is sent to high in the clouds and monitor terminal, for medical worker by Zigbee or bluetooth or WIFI through intelligent router.Present embodiment completes monitoring, applied range when can not change existing respirator 1.

Embodiment 5

A kind of respirator treatment method for quality control, comprises

Step one, by the flow sensor monitoring flow velocity of breathing machine pipeline and shape information, and breathing machine pipeline flow rate information is sent to high in the clouds and monitor terminal;

Step 2, by the pressure in pressure sensor monitoring breathing machine pipeline and shape information, and breathing machine pipeline pressure and waveform are sent to high in the clouds and monitor terminal;

Step 3, by the oxygen concentration information in oxygen concentration sensor monitoring oxygen channel and/or breathing machine pipeline, and the oxygen concentration information in oxygen channel and/or breathing machine pipeline is sent to high in the clouds and monitor terminal;

Step 4, by the oxygen flow information in oxygen gas flow rate Sensor monitoring oxygen channel, and oxygen flow information is sent to high in the clouds and monitor terminal;

Step 5, by the blood oxygen saturation in blood oxygen degree of saturation instrument monitoring Use of respirator person blood and pulse frequency information, and blood oxygen saturation and pulse frequency information are sent to high in the clouds and monitor terminal;

Step 6, pass through CO ₂cO in monitor monitors Use of respirator person alveolar ₂breathe out in dividing potential drop information or breathing circuit the CO of end ₂waveform, and by the CO in Use of respirator person alveolar ₂breathe out in dividing potential drop information or breathing circuit the CO of end ₂waveform is sent to high in the clouds and monitor terminal;

Step 7, monitor terminal receives breathing machine pipeline flow rate information, breathing machine pipeline pressure and shape information, oxygen channel oxygen concentration information and/or breathing machine pipeline oxygen concentration information, blood oxygen saturation and pulse frequency information, alveolar CO ₂the CO of dividing potential drop information and/or end of breathing out ₂waveform, contrasts with preset value, judges that whether respirator treatment is normal.

Wherein, in described step 7, by the breathing machine pipeline flow rate information of the random time section in time counter recording respiration machine operation process, breathing machine pipeline pressure and shape information, oxygen channel oxygen concentration information and/or breathing machine pipeline oxygen concentration information, blood oxygen saturation and pulse frequency information, alveolar CO ₂the CO of dividing potential drop information and/or end of breathing out ₂waveform is also sent to high in the clouds storage.

Wherein, in described step 7, monitor terminal receives breathing machine pipeline flow rate information and predetermined threshold value contrasts, and when breathing machine pipeline flow rate information is greater than or less than predetermined threshold value, monitor terminal starts alarm equipment alarm.

Wherein, in described step 7, monitor terminal receives oxygen channel oxygen concentration information and/or breathing machine pipeline oxygen concentration information and predetermined threshold value and contrasts, when oxygen channel oxygen concentration information and/or breathing machine pipeline oxygen concentration information are greater than or less than predetermined threshold value, monitor terminal starts alarm equipment alarm.

Wherein, in described step 7, monitor terminal receives breathing machine pipeline pressure and shape information and predetermined threshold value and contrasts, and when breathing machine pipeline pressure and shape information are greater than or less than predetermined threshold value, monitor terminal starts alarm equipment alarm.

Wherein, in described step 7, monitor terminal receives blood oxygen saturation and pulse frequency information and predetermined threshold value and contrasts, and when blood oxygen saturation and pulse frequency information are greater than or less than predetermined threshold value, monitor terminal starts alarm equipment alarm.

Wherein, in described step 7, monitor terminal receives alveolar CO ₂the CO of dividing potential drop information and/or end of breathing out ₂waveform and predetermined threshold value contrast, as alveolar CO ₂the CO of dividing potential drop information and/or end of breathing out ₂when waveform is greater than or less than predetermined threshold value, monitor terminal starts alarm equipment alarm.

Wherein, monitor terminal is according to the corrugated hose flow velocity in the certain time received and shape information, corrugated hose pressure and shape information, obtain the respiratory frequency of Use of respirator person reality, tidal volume, minute ventilation, pressure of inspiration(Pi), breath pressure, pressure rise time, air leakage, gather respirator mode of operation and parameter, humidifier gear, actual measurement parameter values, treatment correlation machine is reported to the police, mechanical disorder warning message transfers to high in the clouds, add the oxygen concentration information in oxygen channel or breathing machine pipeline, the flow information of oxygen channel, user blood oxygen saturation and pulse frequency information, CO in Use of respirator person alveolar ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂waveform, monitors

The above; be only this utility model preferably detailed description of the invention; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that this utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (5)

1. a respirator treatment quality control system, is characterized in that: comprise

Respirator,

Oxygen source, is connected with respirator

Flow sensor, gathers the flow velocity of breathing machine pipeline and shape information and is sent to high in the clouds and monitor terminal;

Pressure transducer, gathers the pressure in breathing machine pipeline and shape information, and is sent to high in the clouds and monitor terminal;

Oxygen concentration sensor, gathers the oxygen concentration information in the oxygen channel of oxygen source and/or breathing machine pipeline and is sent to high in the clouds and monitor terminal;

Oxygen gas flow rate sensor, gathers the flow rate information of oxygen channel and is sent to high in the clouds and monitor terminal;

Radio blood oxygen saturation instrument, gathers blood oxygen saturation and the pulse frequency information of user, is sent to monitor terminal and high in the clouds

Wireless CO ₂monitor, gathers the CO of user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information, and be sent to monitor terminal and high in the clouds;

Monitor terminal, for the CO of the oxygen concentration information according to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information and setting threshold comparison, when occurring different, start alarm;

High in the clouds, for storing the CO of breathing machine pipeline flow velocity and shape information, the oxygen concentration information of breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information.

2. a kind of respirator treatment quality control system according to claim 1, it is characterized in that: also comprise signal processing circuit, for the CO by the oxygen concentration information of breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information process, is sent to high in the clouds and monitor terminal through intelligent router.

3. a kind of respirator treatment quality control system according to claim 1, it is characterized in that: also comprise time counter, for the CO of the oxygen concentration information to breathing machine pipeline flow velocity and shape information, breathing machine pipeline pressure and shape information, oxygen channel and/or breathing machine pipeline, blood oxygen saturation and pulse frequency information, user ₂breathe out in dividing potential drop information or Use of respirator person pipeline the CO of end ₂shape information is carried out time mark and is sent to monitor terminal and high in the clouds.

4. a kind of respirator treatment quality control system according to claim 1, is characterized in that: described oxygen source accesses the gas input of described respirator.

5. a kind of respirator treatment quality control system according to claim 1, is characterized in that: described oxygen source accesses the gas output end of described respirator.