CN111301571A - Bicycle with pulmonary function monitoring system - Google Patents

Abstract

The invention discloses a bicycle with a pulmonary function monitoring system. The technical solution of the bicycle is as follows: a bicycle with a pulmonary function monitoring system includes a bicycle frame, and the bicycle frame is provided with a power supply system and the power supply system. Electrically connected console, speed monitoring module for monitoring vehicle speed, blood oxygen probe for monitoring cyclist's blood oxygen level, nose and nose airflow sensor for monitoring cyclist's breathing volume, mobile for signal reception and transmission a terminal, a generator connected to the power supply system and charging the power supply system, and the console is connected with the speed monitoring module, the blood oxygen probe, the oral and nasal airflow sensor and the mobile terminal with electrical signals. The invention realizes cloud monitoring of lung function, and can detect health and pathophysiological data of healthy clients and patients in real time.

Description

A bicycle with a lung 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 technique

At present, cycling is used by more and more people as a green travel method, but for some groups, the single function of bicycle cannot monitor the user's physical state in real time, and there are health risks when exercising or traveling.

Especially for respiratory risk, one of the health risks, the traditional pulmonary function monitoring technology is measured in the hospital, which is extremely inconvenient and not suitable for long-term monitoring and full-time management of patients. Currently on the market, although some technologies can be implemented, there are turbine-type and differential-pressure spirometers that can measure heartbeat and respiration in a non-contact way to determine pulmonary function and inspiratory parameters, but they all drift and need to be corrected, so they cannot be used at home. In addition, the etiology of acute exacerbation and its consequences are not understood, which is not conducive to prevention and treatment.

Existing spirometers are difficult to achieve real-time monitoring, especially for sports such as cycling, and when cycling, breathing is aggravated, and lung function should be monitored.

Therefore, it is necessary for us to improve such a structure to overcome the above-mentioned defects.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a bicycle with a lung function monitoring system, which realizes cloud monitoring of lung function, and can detect the health and pathophysiological data of healthy customers and patients in real time.

The above-mentioned technical purpose of the present invention is achieved through the following technical solutions: a bicycle with a pulmonary function monitoring system, comprising a bicycle frame, the bicycle frame is provided with a power supply system, a console electrically connected to the power supply system, A speed monitoring module for monitoring vehicle speed, a blood oxygen probe for monitoring cyclist's blood oxygen level, a nose and nose airflow sensor for monitoring cyclist's breathing volume, a mobile terminal for signal reception and transmission, and the power supply a generator that is connected to the system and charges the power supply system, and the console is connected to the speed monitoring module, the blood oxygen probe, the mouth and nose airflow sensor and the electrical signal of the mobile terminal;

The console includes an MCU control circuit, a speed signal acquisition module and an interface connected with the speed monitoring module, a blood oxygen signal processing module and an interface connected with the blood oxygen probe, and an oral and nasal airflow signal processing module connected with the oral and nasal airflow sensor. A module, a power supply circuit connected with the power supply system, a display module, a generator control generator control and monitoring circuit connected with the generator, a button module, and a wireless communication module.

By adopting the above technical solution, the power supply system includes a battery, a generator module connected to the generator, a charging circuit, and a power supply circuit connected to the power supply circuit of the console.

By adopting the above technical solution, the bicycle frame is provided with a bicycle light and a mobile phone bracket, and the console further includes a light control circuit connected with the bicycle light.

By adopting the above technical solution, the mobile terminal is a mobile phone, the mobile phone signal is connected to the computer terminal and processes the received data, the mobile phone transmits the monitoring data sent by the console, and receives the calculation data sent by the computer terminal.

To sum up, the present invention has the following beneficial effects:

When in use, the speed of the bicycle is monitored through the speed monitoring module, while the nasal airflow monitor monitors the cyclist's breathing airflow, and the blood oxygen probe monitors the blood oxygen content in the blood; the monitored data is transmitted to the console, and the console passes The mobile terminal transmits the monitored data to the computer terminal in real time, and performs calculation and analysis through the computer terminal to realize the detection of lung function, at the same time judge the appropriate riding speed, and output the calculation data to the mobile terminal; and through the real-time detection of these data The health and pathophysiological data of healthy customers and patients are collected and analyzed for a long time to determine the life pattern of patients, and to formulate intervention measures as soon as possible to gradually approach the requirements of precision medicine.

The bike lights are controlled from the console for easy nighttime use by the cyclist.

Description of drawings

Fig. 1 is the system block diagram of the present invention;

Fig. 2 is the 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 names of the corresponding parts represented by the numbers in the figure: 1. Bicycle frame; 2. Power system; 3. Console; 4. Speed monitoring module; 5. Blood oxygen probe; 6. Oral and nasal airflow sensor; 7. Mobile terminal; 8. MCU control circuit; 9. Speed signal acquisition module and interface; 10. Generator; 11. Blood oxygen signal processing module and interface; 12. Oral and nasal airflow signal processing module; 13. Power circuit; 14. Display module; 15 , generator control and monitoring circuit; 16, button module; 17, wireless communication module; 18, battery; 19, generator module; 20, charging circuit; 21, power supply circuit; 22, bicycle light; 23, mobile phone holder; 24 , Light control circuit.

Detailed ways

In order to make the technical means, creation features, achievement goals and effects realized by the present invention easy to understand, the present invention will be further described below with reference to the drawings and specific embodiments.

As shown in FIG. 1, a bicycle with a lung function monitoring system proposed by the present invention includes a bicycle frame 1, and the bicycle frame 1 is provided with a power supply system 2, a console 3 electrically connected to the power supply system 2, and used for monitoring Speed monitoring module 4 for vehicle speed, blood oxygen probe 5 for monitoring cyclist's blood oxygen level, nose and nose airflow sensor 6 for monitoring cyclist's breathing volume, mobile terminal 7 for signal reception and transmission, and power supply system 2. The generator 10 that is connected to and charges the power supply system 2, the console 3 is connected to the speed monitoring module 4, the blood oxygen probe 5, the mouth and nose airflow sensor 6 and the mobile terminal 7 with electrical signals, and the speed monitoring module 4 can be a vehicle speed sensor, etc., The mobile terminal 7 can be a mobile phone, the mobile phone signal is connected to the computer terminal and processes the received data, the mobile phone transmits the monitoring data sent by the console 3 and receives the calculation data sent by the computer terminal.

The console 3 includes an MCU control circuit 8, a speed signal acquisition module and an interface 9 connected with the speed monitoring module 4, a blood oxygen signal processing module and an interface 11 connected with the blood oxygen probe 5, and a mouth and nose connected with the mouth and nose airflow sensor 6. Airflow signal processing module 12, power supply circuit 13 connected to power supply system 2, display module 14, generator 10 connected to generator 10 to control generator control and monitoring circuit 15, key module 16, wireless communication module 17, mobile terminal 7 Data interaction can be realized by connecting with the wireless communication module 17 . 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 in use, the speed of the bicycle is monitored by the speed monitoring module 4, the air flow rate of the rider's breath is monitored by the oral and nasal airflow monitor, and the blood oxygen content in the blood is monitored by the blood oxygen probe 5; and the monitored data is transmitted to the console 3, The console 3 transmits the monitored data to the computer terminal in real time through the mobile terminal 7, and carries out calculation and analysis by the computer terminal, realizes the detection of lung function, judges the appropriate riding speed simultaneously, and outputs the calculation data to the mobile terminal 7; These data are collected and analyzed for a long time to determine the patient's life style, and to formulate intervention measures as soon as possible, gradually approaching the requirements of precision medicine.

In this embodiment, the bicycle frame 1 is provided with a bicycle light 22 and a mobile phone holder 23 , and the console 3 further includes a light control circuit 24 connected with the bicycle light 22 . The bicycle light 22 is controlled by the console 3, which is convenient for the rider to use at night.

The foregoing has shown and described the basic principles, main features and advantages of the present invention. Those skilled in the art should understand that the present invention is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principle of the present invention. Such changes and improvements fall within the scope of the claimed invention. The claimed scope of the present invention is defined by the appended claims and their equivalents.

Claims (4)

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.

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