CN111301571A

CN111301571A - Bicycle with pulmonary function monitoring system

Info

Publication number: CN111301571A
Application number: CN202010259232.4A
Authority: CN
Inventors: 周志勇
Original assignee: Shanghai Dianji University
Current assignee: Shanghai Dianji University
Priority date: 2020-04-03
Filing date: 2020-04-03
Publication date: 2020-06-19

Abstract

The invention discloses a bicycle with a pulmonary function monitoring system, which has the technical scheme that: the utility model provides a bicycle with pulmonary function monitoring system, includes the bicycle frame, the bicycle frame be provided with electrical power generating system, with the control cabinet that the electrical power generating system electricity is connected, be used for monitoring the speed monitoring module of speed of a motor vehicle, be used for monitoring the blood oxygen probe of riding passerby blood oxygen volume, be used for monitoring the oronasal airflow sensor of riding passerby respiratory, be used for carrying out signal reception and transmission mobile terminal, with electrical power generating system connects and the generator that charges to electrical power generating system, the control cabinet with speed monitoring module, blood oxygen probe, oronasal airflow sensor and mobile terminal signal connection. The cloud lung monitoring system realizes cloud lung monitoring function, and can detect health and pathophysiology data of healthy clients and patients in real time.

Description

Bicycle with pulmonary function monitoring system

Technical Field

The invention relates to the field of medical management systems, in particular to a bicycle with a pulmonary function monitoring system.

Background

At present, the mode of being ridden by more and more people as a green trip, but to some groups, the single unable real-time supervision user's of bicycle function physical status, health risk when having motion or trip.

Especially for respiratory risk, which is one of health risks, the traditional lung function monitoring technology is measured in hospitals, is extremely inconvenient and is not suitable for long-time monitoring and full-time-space management of patients. In the current market, although some technologies can realize that a turbine type and differential pressure type lung function instrument can realize non-contact measurement of heartbeat and breath to determine lung function inhalation parameters, the instruments have drift and need to be corrected, and cannot be applied to families. In addition, the etiology and consequences of acute exacerbation are unknown, which is not conducive to prevention and treatment.

The existing pulmonary function instrument is difficult to realize real-time monitoring, particularly the motion states such as riding, and when riding, the respiration is intensified, and the pulmonary function condition is more to be monitored.

Therefore, there is a need for an improved structure that overcomes the above-mentioned deficiencies.

Disclosure of Invention

The invention aims to provide a bicycle with a pulmonary function monitoring system, which can realize cloud pulmonary function monitoring and can detect health and pathophysiology data of healthy clients and patients in real time.

The technical purpose of the invention is realized by the following technical scheme: a bicycle with a pulmonary function monitoring system comprises a bicycle frame, wherein the bicycle frame is provided with a power supply system, a control console electrically connected with the power supply system, a speed monitoring module for monitoring the speed of the bicycle, a blood oxygen probe for monitoring the blood oxygen content of a rider, an oronasal airflow sensor for monitoring the respiration of the rider, a mobile terminal for receiving and transmitting signals, and a generator connected with the power supply system and charging the power supply system, wherein the control console is in electrical signal connection with the speed monitoring module, the blood oxygen probe, the oronasal airflow sensor and the mobile terminal;

the control console comprises an MCU control circuit, a speed signal acquisition module and an interface which are connected with the speed monitoring module, a blood oxygen signal processing module and an interface which are connected with the blood oxygen probe, an oral and nasal airflow signal processing module which is connected with the oral and nasal airflow sensor, a power circuit which is connected with a power system, a display module, a generator control and monitoring circuit which is connected with a generator, a key module and a wireless communication module.

By adopting the technical scheme, the power supply system comprises a storage battery, a generator module connected with the generator, a charging circuit and a power supply circuit connected with the power circuit of the console.

Through adopting above-mentioned technical scheme, the bicycle frame is provided with bicycle lamp and cell phone stand, the control cabinet still include with the car light control circuit that the bicycle lamp is connected.

By adopting the technical scheme, the mobile terminal is a mobile phone, the mobile phone is in signal connection with the computer terminal and processes received data, the mobile phone transmits monitoring data sent by the console and receives computing data sent by the computer terminal.

In conclusion, the invention has the following beneficial effects:

when the bicycle is used, the running speed of the bicycle is monitored through the speed monitoring module, meanwhile, the breath flow of a rider is monitored through the oral-nasal airflow monitor, and the blood oxygen content in blood is monitored through the blood oxygen probe; transmitting the monitored data to a console, transmitting the monitored data to a computer terminal by the console in real time through a mobile terminal, performing calculation analysis through the computer terminal, realizing pulmonary function detection, judging proper riding speed, and outputting calculation data to the mobile terminal; and the health and pathophysiology data of the health client and the patient can be detected in real time through the data, the life mode of the patient is judged through long-term collection and analysis, and intervention measures are made as soon as possible to gradually approach the accurate medical requirements.

The bicycle lamp is controlled through the control console, so that a rider can conveniently use the bicycle lamp at night.

Drawings

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a system block diagram of the console of the present invention;

fig. 3 is a system block diagram of the power supply system of the present invention.

The corresponding part names indicated by the numbers in the figures: 1. a bicycle frame; 2. a power supply system; 3. a console; 4. a speed monitoring module; 5. a blood oxygen probe; 6. an oronasal airflow sensor; 7. a mobile terminal; 8. an MCU control circuit; 9. a speed signal acquisition module and an interface; 10. a generator; 11. a blood oxygen signal processing module and an interface; 12. an oral-nasal airflow signal processing module; 13. a power supply circuit; 14. a display module; 15. a generator control and monitoring circuit; 16. a key module; 17. a wireless communication module; 18. a storage battery; 19. a generator module; 20. a charging circuit; 21. a power supply circuit; 22. a bicycle lamp; 23. a mobile phone support; 24. a vehicle lamp control circuit.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the invention is further described with reference to the figures and the specific embodiments.

As shown in fig. 1, the bicycle with a lung function monitoring system provided by the present invention comprises a bicycle frame 1, the bicycle frame 1 is provided with a power system 2, a console 3 electrically connected to the power system 2, a speed monitoring module 4 for monitoring a speed of the bicycle, a blood oxygen probe 5 for monitoring a blood oxygen amount of a rider, an oronasal airflow sensor 6 for monitoring a respiratory amount of the rider, a mobile terminal 7 for receiving and transmitting signals, and a generator 10 connected to the power system 2 and charging the power system 2, the console 3 is electrically connected to the speed monitoring module 4, the blood oxygen probe 5, the oronasal airflow sensor 6 and the mobile terminal 7, the speed monitoring module 4 can be a speed sensor, etc., the mobile terminal 7 can be a mobile phone, the mobile phone is connected to a computer terminal by signals and processes received data, the mobile phone transmits monitoring data sent by the console 3, and receiving the calculation data sent by the computer terminal.

The control console 3 comprises an MCU control circuit 8, a speed signal acquisition module and an interface 9 which are connected with the speed monitoring module 4, a blood oxygen signal processing module and an interface 11 which are connected with the blood oxygen probe 5, an oral and nasal airflow signal processing module 12 which is connected with the oral and nasal airflow sensor 6, a power supply circuit 13 which is connected with the power supply system 2, a display module 14, a generator 10 control and monitoring circuit 15 which is connected with the generator 10, a key module 16 and a wireless communication module 17, and the mobile terminal 7 can be connected with the wireless communication module 17 and realize data interaction. The power supply system 2 includes a battery 18, a generator module 19 connected to the generator 10, a charging circuit 20, and a power supply circuit 21 connected to the power supply circuit 13 of the console 3.

When the bicycle is used, the running speed of the bicycle is monitored through the speed monitoring module 4, meanwhile, the breath flow of a rider is monitored through the mouth and nose airflow monitor, and the blood oxygen content in blood is monitored through the blood oxygen probe 5; the monitored data are transmitted to the control console 3, the control console 3 transmits the monitored data to the computer terminal in real time through the mobile terminal 7, calculation and analysis are carried out through the computer terminal, lung function detection is achieved, meanwhile, proper riding speed is judged, and calculation data are output to the mobile terminal 7; and the life mode of the patient is judged by long-term collection and analysis of the data, and intervention measures are made as soon as possible, so that the accurate medical requirements are gradually approached.

In this embodiment, the bicycle frame 1 is provided with a bicycle lamp 22 and a handset support 23, and the console 3 further includes a lamp control circuit 24 connected to the bicycle lamp 22. The bicycle lamp 22 is controlled by the control console 3, so that the bicycle is convenient for a rider to use at night.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Bicycle with a pulmonary function monitoring system, comprising a bicycle frame (1), characterized in that: the bicycle frame (1) is provided with a power supply system (2), a control console (3) electrically connected with the power supply system (2), a speed monitoring module (4) for monitoring the speed of a bicycle, a blood oxygen probe (5) for monitoring the blood oxygen amount of a rider, an oronasal airflow sensor (6) for monitoring the respiration amount of the rider, a mobile terminal (7) for receiving and transmitting signals, and a generator (10) connected with the power supply system (2) and charging the power supply system (2), wherein the control console (3) is in electrical signal connection with the speed monitoring module (4), the blood oxygen probe (5), the oronasal airflow sensor (6) and the mobile terminal (7);

the control console (3) comprises an MCU control circuit (8), a speed signal acquisition module and an interface (9) which are connected with the speed monitoring module (4), a blood oxygen signal processing module and an interface (11) which are connected with the blood oxygen probe (5), an oral and nasal airflow signal processing module (12) which is connected with the oral and nasal airflow sensor (6), a power circuit (13) which is connected with the power system (2), a display module (14), a generator (10) which is connected with the generator (10) and controls the generator control and monitoring circuit (15), a key module (16) and a wireless communication module (17).

2. A bicycle with a pulmonary function monitoring system according to claim 1, wherein: the power supply system (2) comprises a storage battery (18), a generator module (19) connected with the generator (10), a charging circuit (20) and a power supply circuit (21) connected with the power supply circuit (13) of the console (3).

3. A bicycle with a pulmonary function monitoring system according to claim 1, wherein: bicycle frame (1) is provided with bicycle lamp (22) and cell phone stand (23), control cabinet (3) still include with car light control circuit (24) that bicycle lamp (22) are connected.

4. A bicycle with a pulmonary function monitoring system according to claim 1, wherein: the mobile terminal (7) is a mobile phone, the mobile phone is in signal connection with the computer terminal and processes received data, the mobile phone transmits monitoring data sent by the console (3) and receives computing data sent by the computer terminal.