CN210843062U - Multi-parameter acquisition intelligent watch based on noninvasive blood glucose detection - Google Patents

Abstract

The utility model provides a multi-parameter acquisition intelligent watch based on non-invasive blood sugar detection, which comprises a watch main body and a watch band connected with the watch main body, wherein a first optical module, a second optical module and a mainboard module are arranged inside the watch main body; the first optical module comprises a first LED lamp group, a first temperature sensor, a first humidity sensor and a first pressure sensor; the second optical module comprises a second LED lamp group, a second temperature sensor, a second humidity sensor and a second pressure sensor; the mainboard module comprises a Bluetooth unit, a control unit, a motion sensing unit and a vibrator. The watch is connected with an external charging seat to realize a charging function. The utility model provides a multi-parameter acquisition intelligent watch based on non-invasive blood sugar detection, which can acquire various health detection data including blood sugar data in human body, so that the monitoring of human health is more comprehensive; meanwhile, the accuracy of the test can be effectively improved, and the use experience of a user is effectively improved.

Description

Multi-parameter acquisition intelligent watch based on noninvasive blood glucose detection

Technical Field

The utility model relates to an intelligence wearing equipment technical field especially relates to a multi-parameter acquisition intelligence wrist-watch based on there is not blood sugar that creates and detects.

Background

Along with the development of science and technology, healthy medical treatment becomes the key point that people paid attention to gradually, and healthy wrist-watch of intelligence is because of with low costs, the appearance simply gets into intelligent wearing equipment market rapidly. The main functions of the smart watch on the market at present include functions of motion monitoring, sleep tracking, vibration awakening and the like, and the smart watch lacks a function of monitoring blood sugar. Blood sugar is very important data about human health, and monitoring and controlling blood sugar is the most important part for preventing and treating diabetes, while blood sugar detection in the prior art is generally conducted by invasive detection and minimally invasive detection through a blood sampling pen. The existing method for detecting blood sugar has the following problems:

(1) not suitable for people with platelet disease;

(2) the viscosity of blood sugar is reduced by long-term invasive detection, so that the accuracy of a detection result is reduced;

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a multi-parameter acquisition intelligent watch based on noninvasive blood glucose detection, which can acquire various health detection data of a human body to obtain more comprehensive health parameter data, so that the monitoring on the health of the human body is more comprehensive, and the monitoring on the health of the human body is more comprehensive; meanwhile, the blood glucose data of the human body can be detected quickly and accurately, so that the universality and the accuracy of the test are effectively improved, and the use experience of a user is improved.

In order to achieve the above object, an embodiment of the present invention provides a multi-parameter acquisition smart watch based on non-invasive blood glucose detection, including a watch main body and a watch band connected to the watch main body, wherein a first optical module, a second optical module and a main board module are arranged inside the watch main body;

the first optical module comprises a first LED lamp group, a first temperature sensor, a first humidity sensor and a first pressure sensor; the first LED lamp group comprises a plurality of LED lamps, the first LED lamp group is connected with the control unit of the mainboard module, and the first temperature sensor, the first humidity sensor and the first pressure sensor are respectively connected with the control unit of the mainboard module;

the second optical module comprises a second LED lamp group, a second temperature sensor, a second humidity sensor and a second pressure sensor; the second LED lamp group comprises a plurality of LED lamps, the second LED lamp group is connected with the control unit of the mainboard module, and the second temperature sensor, the second humidity sensor and the second pressure sensor are respectively connected with the control unit of the mainboard module;

the main board module comprises a Bluetooth unit, a control unit, a motion sensing unit and a vibrator; the Bluetooth unit is connected with the control unit through a UART interface; the motion sensing unit is connected with the control unit through an IIC bus; the vibrator is connected with the control unit in a mode of direct control by GPIO (general purpose input/output);

the watch main body is further arranged on the electrocardio module, and the electrocardio module comprises at least one electrode; the first electrode and the second electrode are arranged at the bottom of the watch main body, which is in contact with the skin of a human body, and the third electrode is arranged on the upper surface of the watch main body.

Further, the first LED lamp set is connected to the control unit of the motherboard module through an integrated driver IC, and the first temperature sensor, the first humidity sensor, and the first pressure sensor are connected to the control unit of the motherboard module through an IIC bus, respectively.

Furthermore, the first LED lamp group is connected with the control unit of the mainboard module through an integrated drive IC, and the second temperature sensor, the second humidity sensor and the second pressure sensor are respectively connected with the control unit of the mainboard module through an IIC bus.

Further, the watch main body comprises a watch upper cover, a watch bottom cover, a display screen and a glass protective layer; the watch upper cover is arranged at the top of the watch main body, the watch bottom cover is arranged at the bottom of the watch main body, the glass protective layer is arranged on the watch upper cover, and the display screen is arranged inside the watch main body.

Further, the control unit comprises a Flash unit for storing user data; the data of the user comprise health detection data of the user and health parameter data of the user.

Furthermore, the watch main body also comprises a charging unit which is fixed on one side of the wrist opening of the watch; wherein, the charging unit is internally provided with a rechargeable lithium battery.

Further, the first optical module is disposed at the top of the watch body, and the second optical module is disposed at the bottom of the watch body.

Furthermore, an FPC cable for supplying power to the watch is arranged inside the watch strap.

The embodiment of the utility model provides a multi-parameter acquisition intelligent watch based on noninvasive blood glucose detection, which can acquire various health detection data of a human body to obtain more comprehensive health parameter data, so that the monitoring on the health of the human body is more comprehensive; meanwhile, the blood glucose data of the human body can be rapidly and accurately monitored, so that the test universality and the test accuracy are effectively improved, and the use experience of a user is improved.

Drawings

Fig. 1 is a first structural schematic diagram of a multi-parameter acquisition smart watch based on non-invasive blood glucose detection according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of a multi-parameter acquisition smart watch based on non-invasive blood glucose detection according to an embodiment of the present invention;

fig. 3 is an internal main board PCB diagram of a multi-parameter acquisition smart watch based on non-invasive blood glucose detection in an embodiment of the present invention;

fig. 4 is a diagram of the first optical module PCB inside the multi-parameter collection smart watch based on non-invasive blood glucose detection in the embodiment of the present invention;

fig. 5 is a diagram of the second optical module PCB inside the multi-parameter collection smart watch based on non-invasive blood glucose detection in the embodiment of the present invention;

fig. 6 is a structural diagram of a charging stand module in the embodiment of the present invention;

fig. 7 is the embodiment of the utility model provides an in the embodiment a schematic block diagram of multi-parameter acquisition intelligence wrist-watch based on there is not blood sugar of wound detection.

Wherein the reference numbers in the drawings of the specification are as follows:

1. an upper cover of the watch; 2. a lithium battery; 3. a transparent frame; 4. a glass protective layer; 5. a third electrode; 6. a sensor protection upper cover; 7. a watch band; 8. a first watch strap buckle; 9. a watch bottom cover; 10. a watch charging port; 11. a first electrode and a second electrode; 12. a sensor protection lower cover; 13. a second watch strap buckle; 14. a Bluetooth unit; 15. a charging unit; 16. a nine-axis sensor; 17. a control unit; 18. a Flash unit; 19. A first LED lamp group; 20. a first temperature sensor and a first humidity sensor; 21 a second optical module; 22. A rear cover of the charging seat; 23. a charging seat front cover; 24. the charging seat charges the pin.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-7, an embodiment of the present invention provides a multi-parameter collection smart watch based on noninvasive blood glucose measurement, including a watch main body and a watch band 7 connected to the watch main body, wherein a first optical module, a second optical module 21 and a motherboard module are disposed inside the watch main body;

the first optical module comprises a first LED lamp group 19, a first temperature sensor, a first humidity sensor and a first pressure sensor; the first LED lamp group 19 comprises a plurality of LED lamps, the first LED lamp group 19 is connected with the control unit 17 of the mainboard module, and the first temperature sensor, the first humidity sensor and the first pressure sensor are respectively connected with the control unit 17 of the mainboard module;

the second optical module 21 comprises a second LED lamp set, a second temperature sensor, a second humidity sensor and a second pressure sensor; the second LED lamp group comprises a plurality of LED lamps, the second LED lamp group is connected with the control unit 17 of the mainboard module, and the second temperature sensor, the second humidity sensor and the second pressure sensor are respectively connected with the control unit 17 of the mainboard module;

the main board module comprises a Bluetooth unit 14, a control unit 17, a motion sensing unit and a vibrator; wherein, the bluetooth unit 14 is connected with the control unit 17 through a UART interface; the motion sensing unit is connected with the control unit 17 through an IIC bus; the vibrator is connected with the control unit 17 in a mode of direct control by GPIO;

the watch body is also provided with a electrocardio module, and the electrocardio module comprises at least one electrode; the first electrode and the second electrode 11 are arranged at the bottom of the watch body, which is in contact with the skin of a human body, and the third electrode is arranged on the upper surface of the watch body.

In the embodiment of the present invention, it can be understood that, when the user brings the finger into contact with the third electrode 5, the first electrode and the second electrode 11 will form a current path between the human body and the watch for identifying whether the user starts to detect, and simultaneously, the electrocardiogram signal of the user can be detected; when a finger of a user is placed on the third electrode 5, the first LED lamp group 19 in the first optical module emits a plurality of light waves including near infrared light, and recovers a photoplethysmography signal through a light signal reflected by the finger; detect human skin temperature information through first temperature sensor and second temperature sensor, detect the humidity information of human skin through first humidity sensor and second humidity sensor, detect the pressure that the finger was arranged in third electrode 5 through first pressure sensor, detect the pressure of human wrist and watch main part bottom contact through second pressure sensor, detect user's motion state and detect user's motion step number through the motion sensor unit, remind the user through the vibrator vibration, and through the instruction of the control unit 17 and the wireless transmission mode that bluetooth unit 14 provided, will gather the multiple health detection data of human body and upload to the high in the clouds, so that calculate health parameter data such as blood sugar through the algorithm in high in the clouds, blood pressure, blood oxygen, the rhythm of the heart, respiratory rate and return to watch display screen and customer end.

Preferably, the watch body is provided with the first optical module, the second optical module 21 and the electrocardio module, so that active detection and passive detection of human health data can be realized. The passive detection is through setting up in wrist-watch main part bottom, and the photoplethysmography signal of human photoplethysmography of the photoplethysmography of human body of second optical module 21 emission green glow, ruddiness and near-infrared light detection with human skin contact, and the same sensor of second optical module 21 can detect the temperature, humidity and the pressure data of human skin simultaneously to the information that will gather is uploaded to the high in the clouds together through the control unit 17 instruction in the wrist-watch main part, reachs data such as blood sugar, blood pressure, blood oxygen, heart rate through the algorithm. The active detection is that the intelligent watch is connected with the client through the Bluetooth unit 14, the user clicks at the client to start detection, then the finger is placed on the third electrode 5, green light, red light and near infrared light with different wave bands are simultaneously emitted through the first optical module and the second optical module 21 so as to detect a photoplethysmograph signal of a human body, and when the user places the finger on the third electrode 5, the third electrode 5 can also detect an electrocardiogram signal of the human body. Moreover, the first temperature sensor, the second temperature sensor, the first humidity sensor, the second humidity sensor, the first pressure sensor and the second pressure sensor in the first optical module and the second optical module 21 also detect the temperature, humidity and pressure data of the environment, the finger and the skin. The collected data are uploaded to the cloud end through instructions of the main board module, so that human health data such as blood sugar, blood pressure, blood oxygen, heart rate, respiratory rate and the like are calculated through an algorithm of the cloud end and returned to the watch and the client for display.

Preferably, in the rest time periods without active detection, the smart watch is always in a passive detection state, and the watch passively detects once every certain preset time interval, so that the human health data are updated in real time. The active detection simultaneously calculates the values of blood sugar, blood pressure, blood oxygen, heart rate and the like by detecting two items of data of the fingers and the wrists of the human body, so the value of the active detection is more accurate than the value of the passive detection. Once a certain data detected passively by a user is abnormal, the intelligent watch sends out a warning to remind the user to carry out active detection.

As a specific implementation of the embodiment of the utility model provides a, first LED banks 19 is connected with the control unit 17 of mainboard module through integrated drive IC, and first temperature sensor, first humidity transducer and first pressure sensor pass through the IIC bus and are connected with the control unit 17 of mainboard module respectively.

As a specific implementation of the embodiment of the utility model provides a, first LED banks 19 is connected with the control unit 17 of mainboard module through integrated drive IC, and second temperature sensor, second humidity transducer and second pressure sensor pass through the IIC bus and are connected with the control unit 17 of mainboard module respectively.

In the embodiment of the present invention, in order to make the detected data more comprehensive, the watch main body is provided with a nine-axis sensor 16. Through the connection mode of the integrated drive IC and the IIC bus, the transmission of signals can be more reliable, and therefore the accuracy of human health data detection is effectively improved.

Referring to fig. 1, the watch body includes a watch upper cover 1, a watch bottom cover 9, a display screen and a glass protection layer 4; wherein, wrist-watch upper cover 1 sets up in the top of wrist-watch main part, and wrist-watch bottom 9 sets up in the bottom of wrist-watch main part, and glass protective layer 4 sets up on wrist-watch upper cover 1, and the display screen sets up inside the wrist-watch main part.

In the embodiment of the present invention, preferably, the watch main body further includes a transparent frame 3 and a sensor protection upper cover 6 disposed on the watch upper cover 1, and a sensor protection lower cover 12 disposed on the watch bottom cover 9. Through setting up wrist-watch upper cover 1, wrist-watch bottom 9 and glass protective layer 4 to protection wrist-watch inner structure, the display screen is used for showing the multiple healthy data of human body.

Referring to fig. 3, the control unit 17 includes a Flash unit 18 for storing user data; the data of the user comprises health data of the user and detection data of the user.

Referring to fig. 2-3, the watch body further includes a charging unit 15, and the charging unit 15 is fixed at one side of the wrist of the watch; the charging unit 15 has a rechargeable lithium battery 2 built therein.

The embodiment of the utility model provides an in, the charging function is realized being connected with outside independent charging seat module to the charging unit 15 that passes through in the wrist-watch to the intelligence wrist-watch. Referring to fig. 6, the charging-stand module includes a charging-stand front cover 23, a charging-stand rear cover 22, and charging-stand pins 24. The charging port 10 in the smart watch is designed as a metal contact, one end of which is connected to the charging unit 15 on the main board, the smart watch is placed on the charging stand, and the other end of the charging port 10 is in close contact with the charging pin 24 in the charging stand module by attraction of magnetic force. The charging pin 24 is connected to a mobile phone charger or a computer through a USB interface after being switched, so that charging can be carried out. Charging through lithium cell 2 can provide bigger power for intelligent wrist-watch, can provide the safer power supply environment of intelligent wrist-watch simultaneously to the reliability of intelligent wrist-watch has been improved.

As a specific implementation manner of the embodiment of the present invention, the first optical module is disposed at the top of the watch main body, and the second optical module 21 is disposed at the bottom of the watch main body.

The embodiment of the present invention provides a second optical module 21 is disposed at the bottom of the watch body, so as to make the human skin contact with the second optical module 21, thereby making the detection of the second optical module 21 on the human health data more accurate.

As a specific implementation of the embodiment of the present invention, the inside FPC cable that is used for supplying power for the wrist-watch that is provided with of watchband 7.

The embodiment of the utility model provides an in, the wrist-watch main part still includes that first watchband 8 detains and second watchband buckle 13, through detaining first watchband 8 and the mutual lock joint of second watchband buckle 13, is favorable to convenience of customers to wear intelligent wrist-watch, has improved user's use and has experienced.

Implement the embodiment of the utility model provides a, following beneficial effect has:

in the embodiment of the present invention, when the user brings the finger into contact with the third electrode, the probe composed of the third electrode and the second optical module 21 will form a current path between the human body and the watch for identifying whether the user starts to detect, and simultaneously, the electrocardiogram signal of the user can be detected; when a finger of a user is placed on the third electrode 5, the first LED lamp group 19 in the first optical module emits a plurality of light waves including near infrared light, and recovers a photoplethysmography signal through a light signal reflected by the finger; detect human skin temperature information through first temperature sensor and second temperature sensor, detect the humidity information of human skin through first humidity sensor and second humidity sensor, detect the pressure that the finger was arranged in third electrode 5 through first pressure sensor, detect the pressure of human wrist and watch main part bottom contact through second pressure sensor, detect user's motion state and detect user's motion step number through the motion sensor unit, remind the user through the vibrator vibration, and through the instruction of the control unit 17 and the wireless transmission mode that bluetooth unit 14 provided, will gather the multiple health detection data of human body and upload to the high in the clouds, so that calculate health parameter data such as blood sugar through the algorithm in high in the clouds, blood pressure, blood oxygen, the rhythm of the heart, respiratory rate and return to watch display screen and customer end. By implementing the embodiment of the utility model, various human health data can be detected, the detection comprehensiveness can be improved, and the human health parameter data can be detected through active detection and passive detection, so that the detection accuracy can be improved, and the use experience of a user can be improved; meanwhile, green light, red light and near infrared light of different wave bands are emitted through the LED lamp groups arranged on the first optical module and the second optical module 21, photoplethysmography signals of a human body are collected, so that blood sugar, blood pressure and blood oxygen data of the human body are calculated through a cloud algorithm, the blood sugar, blood pressure and blood oxygen data can be suitable for various crowds including platelet patients, and the detection universality is improved; and the technical problem that the detection result accuracy is reduced due to the reduction of the blood sugar viscosity caused by long-term invasive detection can be solved, so that the detection accuracy and the user experience are further improved.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (8)

1. A multi-parameter acquisition intelligent watch based on non-invasive blood glucose detection is characterized by comprising a watch main body and a watch band connected with the watch main body, wherein a first optical module, a second optical module and a mainboard module are arranged in the watch main body;

the first optical module comprises a first LED lamp group, a first temperature sensor, a first humidity sensor and a first pressure sensor; the first LED lamp group comprises a plurality of LED lamps, the first LED lamp group is connected with the control unit of the mainboard module, and the first temperature sensor, the first humidity sensor and the first pressure sensor are respectively connected with the control unit of the mainboard module;

the second optical module comprises a second LED lamp group, a second temperature sensor, a second humidity sensor and a second pressure sensor; the second LED lamp group comprises a plurality of LED lamps, the second LED lamp group is connected with the control unit of the mainboard module, and the second temperature sensor, the second humidity sensor and the second pressure sensor are respectively connected with the control unit of the mainboard module;

the main board module comprises a Bluetooth unit, a control unit, a motion sensing unit and a vibrator; the Bluetooth unit is connected with the control unit through a UART interface; the motion sensing unit is connected with the control unit through an IIC bus; the vibrator is connected with the control unit in a mode of direct control by GPIO (general purpose input/output);

the watch body is also provided with a electrocardio module, and the electrocardio module comprises at least one electrode; the first electrode and the second electrode are arranged at the bottom of the watch main body, which is in contact with the skin of a human body, and the third electrode is arranged on the upper surface of the watch main body.

2. The non-invasive blood glucose detection based multi-parameter acquisition smart watch of claim 1, wherein the first LED lamp set is connected to the control unit of the main board module through an integrated driving IC, and the first temperature sensor, the first humidity sensor and the first pressure sensor are respectively connected to the control unit of the main board module through an IIC bus.

3. The non-invasive blood glucose detection based multi-parameter acquisition smart watch of claim 1, wherein the first LED lamp set is connected to the control unit of the main board module through an integrated driving IC, and the second temperature sensor, the second humidity sensor and the second pressure sensor are respectively connected to the control unit of the main board module through an IIC bus.

4. The non-invasive blood glucose detection based multi-parameter acquisition smart watch of claim 1, wherein the watch body comprises a watch upper cover, a watch bottom cover, a display screen and a glass protection layer; the watch upper cover is arranged at the top of the watch main body, the watch bottom cover is arranged at the bottom of the watch main body, the glass protective layer is arranged on the watch upper cover, and the display screen is arranged inside the watch main body.

5. The non-invasive blood glucose detection based multi-parameter acquisition smart watch of claim 1, wherein the control unit comprises a Flash unit for storing user data; the data of the user comprise health detection data of the user and health parameter data of the user.

6. The non-invasive blood glucose detection based multi-parameter acquisition smart watch of claim 1, wherein the watch body further comprises a charging unit, the charging unit being fixed on one side of the watch wrist; wherein, the charging unit is internally provided with a rechargeable lithium battery.

7. The non-invasive blood glucose detection based multi-parameter acquisition smart watch of claim 1, wherein the first optical module is disposed at a top of the watch body and the second optical module is disposed at a bottom of the watch body.

8. The non-invasive blood glucose detection based multi-parameter acquisition smart watch according to claim 1, wherein an FPC cable for supplying power to the watch is arranged inside the watch band.

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