CN213551738U - Automobile-used driver vital sign monitoring system - Google Patents

Abstract

The utility model relates to a vehicle driver vital sign monitoring system, which comprises a steering wheel handle sleeve, a base, a sign monitoring module, a mobile phone APP and a cloud platform; sign monitoring module includes: back lid, the battery, PCB circuit board and sensor protecgulum, the back lid, the battery, PCB circuit board and sensor protecgulum encapsulation are as an organic whole to sheathe in at the steering wheel through the pedestal mounting, the steering wheel is sheathe in and is equipped with electrically conductive adhesive tape, be equipped with blood oxygen sensor and rhythm of the heart sensor on the sensor protecgulum, be equipped with the MCU treater on the PCB circuit board, bluetooth transmission module, sensor chip I, sensor chip II and sensor chip III, electrically conductive adhesive tape passes through the wire and is connected with sensor chip I, blood oxygen sensor is connected with sensor chip II, rhythm of the heart sensor is connected with sensor chip III, the MCU treater passes through bluetooth transmission module and will collects, data transmission after the processing gives cell-phone APP, cell-phone APP sends received data to the cloud platform.

Description

Automobile-used driver vital sign monitoring system

Technical Field

The utility model relates to an automotive electronics field, healthy medical field, concretely relates to automobile-used driver vital sign monitoring system.

Background

Along with the continuous development of car intellectuality, for satisfying market demand and developing new field, the utility model discloses a driver vital sign monitoring system for car has been developed towards the automotive filed. The system applies a plurality of biological signal identification technologies such as Electrocardiogram (ECG), photoelectric (PPG) and the like, and provides all-round vital sign monitoring service for drivers. The system mainly covers the functions of measuring the electrocardio, the heart rate, the blood oxygen and the like of the driver. The system can be used as a part of intelligent safety auxiliary driving, and can provide driver data analysis, health record data management and health risk prompt and control for various industries.

SUMMERY OF THE UTILITY MODEL

To the defect that exists among the prior art, the utility model aims to provide an automobile-used driver vital sign monitoring system solves following problem:

1) the electrocardio and other health indexes of a driver in the driving process are difficult to acquire in real time.

2) The metal material is not suitable for being used as an electrocardiosignal conductor.

3) Good coupling is required between the electro-cardio conductive material and the steering wheel cover.

4) The space of the steering wheel handle sleeve is limited, and the arrangement and installation of components such as a circuit board, a sensor, a battery and the like are difficult to meet.

5) Good coupling is required between the physical sign monitoring module and the steering wheel handle cover.

6) The sign monitoring module needs to be conveniently taken down and placed, and is convenient to charge.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

a driver vital signs monitoring system for a vehicle, comprising: the system comprises a steering wheel handle sleeve 7, a base 6, a physical sign monitoring module, a mobile phone APP and a cloud platform;

the physical sign monitoring module comprises: the automobile steering wheel comprises a rear cover 2, a battery 3, a PCB 4 and a sensor front cover 5, wherein the rear cover 2, the battery 3, the PCB 4 and the sensor front cover 5 are packaged into a whole and are arranged on a steering wheel handle sleeve 7 through a base 6, a conductive adhesive tape 8 is arranged on the steering wheel handle sleeve 7,

a blood oxygen sensor and a heart rate sensor are arranged on the sensor front cover 5,

the PCB 4 is provided with an MCU processor, a Bluetooth transmission module, a sensor chip I, a sensor chip II and a sensor chip III,

the conductive adhesive tape 8 is connected with a sensor chip I through a lead, the sensor chip I is connected with an MCU processor, the conductive adhesive tape 8 is used for measuring the electrocardio of a driver and transmitting the electrocardio data to the sensor chip I, the sensor chip I is used for receiving the electrocardio data, processing the electrocardio data into a digital signal and transmitting the digital signal to the MCU processor,

the blood oxygen sensor is connected with a sensor chip II, the sensor chip II is connected with the MCU processor, the blood oxygen sensor is used for measuring the blood oxygen of a driver and transmitting the blood oxygen data to the sensor chip II, the sensor chip II is used for receiving the blood oxygen data, processing the blood oxygen data into digital signals and transmitting the digital signals to the MCU processor,

the heart rate sensor is connected with a sensor chip III, the sensor chip III is connected with the MCU processor, the heart rate sensor is used for measuring the heart rate of a driver and transmitting heart rate data to the sensor chip III, the sensor chip III is used for receiving the heart rate data, processing the heart rate data into digital signals and transmitting the digital signals to the MCU processor,

the MCU treater passes through bluetooth transmission module and gives cell-phone APP with the data transmission after collecting, handling, and cell-phone APP sends received data to the cloud platform, and cell-phone APP is used for the show, looks over the data, and the cloud platform is used for saving, replaying data.

On the basis of above-mentioned scheme, automobile-used driver vital sign monitoring system still includes bracelet 1, sign monitoring module can follow steering wheel handle cover 7 and take off, puts into bracelet 1, and the bracelet 1 that has sign monitoring module can monitor the vital sign (except the electrocardio) of driver non-driving time.

On the basis of the scheme, the battery 3 is used for supplying power to the PCB 4.

The utility model has the advantages that:

1) in the driving process of a driver, health index data such as electrocardio can be acquired in real time.

2) Non-metallic materials suitable for collecting and conducting electrocardiosignals are found.

3) Through ergonomic design, a physical sign monitoring module which is small in size, complete in function and easy to couple with a handle sleeve is designed.

4) The good coupling between the electrocardio-conductive material and the steering wheel handle sleeve is realized.

5) Good coupling between the physical sign monitoring module and the steering wheel handle sleeve is realized.

6) The driver can take down sign monitoring module from the cover, puts into the bracelet, plays the effect of bracelet monitoring non-driving time vital sign.

7) Sign monitoring module is according to ergonomic design, conveniently takes off and lays, is convenient for moreover charge.

Drawings

The utility model discloses there is following figure:

fig. 1 is a diagram of the structure of the present invention.

In the figure: the device comprises a bracelet 1, a back cover 2, a battery 3, a PCB 4, a sensor front cover 5, a base 6, a steering wheel handle sleeve 7 and a conductive adhesive tape 8.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, a vital signs monitoring system for a vehicle driver includes: the system comprises a steering wheel handle sleeve 7, a base 6, a physical sign monitoring module, a mobile phone APP and a cloud platform;

the physical sign monitoring module comprises: the automobile steering wheel comprises a rear cover 2, a battery 3, a PCB 4 and a sensor front cover 5, wherein the rear cover 2, the battery 3, the PCB 4 and the sensor front cover 5 are packaged into a whole and are arranged on a steering wheel handle sleeve 7 through a base 6, a conductive adhesive tape 8 is arranged on the steering wheel handle sleeve 7,

a blood oxygen sensor and a heart rate sensor are arranged on the sensor front cover 5,

the PCB 4 is provided with an MCU processor, a Bluetooth transmission module, a sensor chip I, a sensor chip II and a sensor chip III,

the conductive adhesive tape 8 is connected with a sensor chip I through a lead, the sensor chip I is connected with an MCU processor, the conductive adhesive tape 8 is used for measuring the electrocardio of a driver and transmitting the electrocardio data to the sensor chip I, the sensor chip I is used for receiving the electrocardio data, processing the electrocardio data into a digital signal and transmitting the digital signal to the MCU processor,

the blood oxygen sensor is connected with a sensor chip II, the sensor chip II is connected with the MCU processor, the blood oxygen sensor is used for measuring the blood oxygen of a driver and transmitting the blood oxygen data to the sensor chip II, the sensor chip II is used for receiving the blood oxygen data, processing the blood oxygen data into digital signals and transmitting the digital signals to the MCU processor,

the heart rate sensor is connected with a sensor chip III, the sensor chip III is connected with the MCU processor, the heart rate sensor is used for measuring the heart rate of a driver and transmitting heart rate data to the sensor chip III, the sensor chip III is used for receiving the heart rate data, processing the heart rate data into digital signals and transmitting the digital signals to the MCU processor,

the MCU treater passes through bluetooth transmission module and gives cell-phone APP with the data transmission after collecting, handling, and cell-phone APP sends received data to the cloud platform, and cell-phone APP is used for the show, looks over the data, and the cloud platform is used for saving, replaying data.

On the basis of the scheme, automobile-used driver vital sign monitoring system still includes bracelet 1, sign monitoring module can follow steering wheel handle cover 7 and take off, puts into bracelet 1, and bracelet 1 that has sign monitoring module can monitor the vital sign of driver non-driving time.

On the basis of the scheme, the battery 3 is used for supplying power to the PCB 4.

Those not described in detail in this specification are within the skill of the art.

Claims (3)

1. A vehicle driver vital signs monitoring system, comprising: the system comprises a steering wheel handle sleeve (7), a base (6), a physical sign monitoring module, a mobile phone APP and a cloud platform;

the physical sign monitoring module comprises: the steering wheel comprises a rear cover (2), a battery (3), a PCB (printed circuit board) circuit board (4) and a sensor front cover (5), wherein the rear cover (2), the battery (3), the PCB circuit board (4) and the sensor front cover (5) are packaged into a whole and are arranged on a steering wheel handle sleeve (7) through a base (6), a conductive adhesive tape (8) is arranged on the steering wheel handle sleeve (7),

a blood oxygen sensor and a heart rate sensor are arranged on the sensor front cover (5),

the PCB (4) is provided with an MCU processor, a Bluetooth transmission module, a sensor chip I, a sensor chip II and a sensor chip III,

the conductive adhesive tape (8) is connected with the sensor chip I through a lead, the sensor chip I is connected with the MCU processor, the conductive adhesive tape (8) is used for measuring the electrocardio of a driver and transmitting the electrocardio data to the sensor chip I, the sensor chip I is used for receiving the electrocardio data, processing the electrocardio data into digital signals and transmitting the digital signals to the MCU processor,

the blood oxygen sensor is connected with a sensor chip II, the sensor chip II is connected with the MCU processor, the blood oxygen sensor is used for measuring the blood oxygen of a driver and transmitting the blood oxygen data to the sensor chip II, the sensor chip II is used for receiving the blood oxygen data, processing the blood oxygen data into digital signals and transmitting the digital signals to the MCU processor,

the heart rate sensor is connected with a sensor chip III, the sensor chip III is connected with the MCU processor, the heart rate sensor is used for measuring the heart rate of a driver and transmitting heart rate data to the sensor chip III, the sensor chip III is used for receiving the heart rate data, processing the heart rate data into digital signals and transmitting the digital signals to the MCU processor,

the MCU treater passes through bluetooth transmission module and gives cell-phone APP with the data transmission after collecting, handling, and cell-phone APP sends received data to the cloud platform, and cell-phone APP is used for the show, looks over the data, and the cloud platform is used for saving, replaying data.

2. The vehicle driver vital signs monitoring system according to claim 1, further comprising a bracelet (1), wherein the signs monitoring module can be removed from the steering wheel cover (7) and placed in the bracelet (1), and the bracelet (1) with the signs monitoring module can monitor vital signs of the driver during non-driving time.

3. Vehicle driver vital signs monitoring system according to claim 1, wherein the battery (3) is used to power a PCB circuit board (4).

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