CN114305357A - Health monitoring system and multifunctional intelligent ring - Google Patents

Abstract

The invention relates to a health monitoring system and a multifunctional intelligent ring, which comprise a ring, a circuit board and a power module electrically connected with the circuit board; the ring is internally provided with a mounting cavity, and the power supply module and the circuit board are arranged in the mounting cavity; the circuit board is provided with a processor, a transmission unit and at least one of a pulse acquisition unit, a temperature acquisition unit and a motion sensing unit, and the transmission unit, the pulse acquisition unit, the temperature acquisition unit and the motion sensing unit are in communication connection with the processor; the ring is characterized in that the side wall of the inner ring of the ring is provided with a collecting port, and the collecting port corresponds to the positions of the pulse collecting unit and the temperature collecting unit so as to collect the information of a user from the collecting port. The intelligent ring is light in structure and comfortable to wear, can monitor various physical health parameters of a user noninductively and noninductively, does not influence the daily activities and rest of the user, is effectively attached to a human body, and improves the signal acquisition quality.

Description

Health monitoring system and multifunctional intelligent ring

Technical Field

The invention relates to the field of health monitoring, in particular to a health monitoring system and a multifunctional intelligent ring.

Background

Along with the development of society, people attach more and more importance to health, and especially the hypertension crowd needs to have real-time dynamic blood pressure monitoring device, plays the effect of warning.

The traditional commercially available sphygmomanometer adopts a cuff pressure type, can not realize continuous real-time measurement, and has the defects of uncomfortable wearing and troublesome carrying.

An intelligent ring for monitoring blood pressure is provided in the patent intelligent ring with blood pressure monitoring function, so that the wearing and the measurement are more convenient; however, the blood pressure value obtained based on the pressure air bag still causes oppression to the human body and causes discomfort, and is not suitable for all-weather monitoring.

Based on the development of the technology, a photoplethysmography (PPG) signal is used for physiological monitoring of a human body, and the heart rate, the blood oxygen saturation, the blood pressure and other conditions of the human body can be acquired through the PPG signal.

The record mode of PPG signal is the photoelectricity means, can realize continuous incessant measurement, but the product on the present market uses intelligent bracelet, intelligent wrist-watch as leading, and the volume is all great, produces the load and feels easily, and at the in-process of wearing, daily activity causes the wrist-watch bracelet easily and rocks and lead to signal measurement unstable, causes the monitoring index inaccurate to some people wear bracelet, wrist-watch can influence the sleep quality.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a health monitoring system and a multifunctional intelligent ring, aiming at the above-mentioned defects of the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: constructing a multifunctional intelligent ring, which comprises a ring, a circuit board and a power module electrically connected with the circuit board;

the ring is internally provided with a mounting cavity, and the power supply module and the circuit board are arranged in the mounting cavity;

the circuit board is provided with a processor, a transmission unit and at least one of a pulse acquisition unit, a temperature acquisition unit and a motion sensing unit, and the transmission unit, the pulse acquisition unit, the temperature acquisition unit and the motion sensing unit are in communication connection with the processor;

the ring is characterized in that a collecting port is formed in the side wall of the inner ring of the ring, and the collecting port corresponds to the pulse collecting unit and the temperature collecting unit in position so as to collect information of a user through the collecting port.

In some embodiments, the pulse acquisition unit is an optical PPG sensor, the temperature acquisition unit is an NTC temperature sensor, and the motion sensing unit is a 3D motion sensor.

In some embodiments, the power module comprises a battery, a power management module, and a power module;

the battery and the power supply module are respectively electrically connected with the power management module, and the power supply module charges the battery with external energy through the power management module.

In some embodiments, the power supply module comprises a charging interface, the charging interface comprises a charging electrode, and the inner ring of the ring is provided with a charging port for exposing the charging electrode; and/or the presence of a gas in the gas,

the power supply module further comprises a wireless charging coil electrically connected with the power management module.

In some embodiments, the power module further includes a power distribution module electrically connected to the power management module, and the power distribution module is electrically connected to the processor, the pulse acquisition unit, the temperature acquisition unit, and the motion sensing unit, respectively.

In some embodiments, the battery is arcuate and extends circumferentially within the mounting cavity.

In some embodiments, the transmission unit comprises a bluetooth module or a WiFi module.

In some embodiments, the ring comprises an annular outer shell and an inner shell arranged at the inner ring of the annular outer shell, and the annular outer shell and the inner shell form the mounting cavity therebetween.

In some embodiments, the circuit board is a flexible circuit board and is circumferentially wound in the mounting cavity.

A health monitoring system comprises the multifunctional intelligent ring.

The health monitoring system and the multifunctional intelligent ring have the following beneficial effects that: physiological health monitoring equipment of ring form, means through photoelectricity volume pulse wave, realize continuous non-invasive real-time supervision, can provide including the rhythm of the heart, oxyhemoglobin saturation, the monitoring of the physiological index including blood pressure etc., and through the structure of optimizing the ring form, realize lightly, wear comfortable characteristic, accomplish small, light in weight, let the user feel to the greatest extent and wear, can realize non-invasively, each item health parameter of monitoring user noninductive, do not influence user's daily activity and rest, and can laminate effectively with the human body, improve signal acquisition's quality.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic diagram of a healthcare system in an embodiment of the present invention;

fig. 2 is a schematic perspective view of the intelligent ring of fig. 1;

fig. 3 is a schematic cross-sectional view of the intelligent ring of fig. 2;

fig. 4 is an exploded view of the intelligent ring of fig. 2;

fig. 5 is a schematic circuit diagram of the intelligent ring of fig. 3.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 1, the health monitoring system in a preferred embodiment of the present invention includes a multifunctional intelligent ring 10, a server 20, and a user terminal 30, wherein the intelligent ring 10 and the user terminal 30 such as a mobile phone, a tablet, a computer, etc. can implement data exchange, data of the intelligent ring 10 can be transmitted to the user terminal 30, and then the data is uploaded to the server 20 by the user terminal 30 to be compared with the data, so as to determine whether the data collected by the intelligent ring 10 meets health requirements, and then the determination result is transmitted to the user terminal 30 for the user to watch.

With reference to fig. 2 to 4, further, in some embodiments, the multifunctional ring 10 includes a ring 11, a circuit board 12, and a power module 13 electrically connected to the circuit board 12, wherein a mounting cavity is disposed in the ring 11, and the power module 13 and the circuit board 12 are disposed in the mounting cavity.

The circuit board 12 is provided with a processor 121, a transmission unit 122, a pulse acquisition unit 123, a temperature acquisition unit 124 and a motion sensing unit 125, wherein the transmission unit 122, the pulse acquisition unit 123, the temperature acquisition unit 124 and the motion sensing unit 125 are in communication connection with the processor 121.

The ring 11 is provided with a collection port 111 on the inner ring side wall, and the collection port 111 corresponds to the pulse collection unit 123 and the temperature collection unit 124 in position to collect the information of the user from the collection port 111.

The pulse acquisition unit 123 can monitor the blood pressure, heart rate, blood oxygen equivalence of the user, and the oppressive feeling of the pressure cuff type cannot be caused, so that the use comfort degree is not influenced.

The temperature acquisition unit 124 can monitor the body temperature and the change condition of the user at the same time, further enhance the monitoring of the physiological health parameters of the user, assist in judging the human condition and improve the accuracy of health analysis.

The motion sensing unit 125 may monitor the motion and sleep conditions of the user, thereby determining the frequency of monitoring, the health analysis situation, etc. according to different motion conditions of the human body. In addition, the motion sensing unit 125 may sense the use state of the user. When the ring is charged and is worn to shake, the motion sensing unit 125 can send a signal to start the master processor 121 of the ring to start working after sensing the signal.

In other embodiments, only one or some of the pulse acquisition unit 123, the temperature acquisition unit 124 and the motion sensing unit 125 may be disposed on the circuit board 12.

Therefore, the invention provides a ring-shaped physiological health monitoring device, which can realize continuous non-invasive real-time monitoring by means of photoplethysmography, can provide physiological index monitoring including heart rate, oxyhemoglobin saturation, blood pressure and the like, realizes the characteristics of light weight and comfortable wearing by optimizing the ring-shaped structure, has small volume and light weight, can enable a user to feel the wearing without sensation as much as possible, can realize non-invasive and non-sensory monitoring of various body health parameters of the user, does not influence the daily activities and rest of the user, can be effectively attached to a human body, and improves the quality of signal acquisition.

In this embodiment, the pulse acquisition unit 123 is an optical PPG sensor, and monitoring is performed by an optical means, so that the compression feeling of the pressure cuff type is not caused, and the comfort in use is not affected. Further, the LED1231 portion of the optical PPG sensor is covered by a transparent window 1232.

In order to allow the light of the LED1231 to pass through and the reflected light to be received, a transparent window 1232 needs to be opened above the LED1231 inside the ring, and the material of the transparent window 1232 can be varied. The light source of the LED1231 is not limited, and red light, infrared light, green light, etc. may be used, and a combination of red light and infrared light is used in the above-described embodiment. The number of the light sources of the LEDs 1231 is not limited, a plurality of LEDs 1231 may be arranged around the ring 11, and when the detected light is weak, the ring may automatically adjust the number of the LEDs 1231 to be turned on and the position of the LEDs to adjust the intensity of the signal.

The temperature acquisition unit 124 is an NTC temperature sensor, and the motion sensing unit 125 is a 3D motion sensor.

The sensor modules are integrated on a tiny printed circuit board 12, preferably, the circuit board 12 is a flexible circuit board, and the area of the circuit board 12 is reduced by the flexible circuit board and a part of the circuit is bent to be embedded into the ring 11 in the shape of a ring.

In order to save area and facilitate installation in a ring, the flexible circuit board is folded between the optical PPG sensor and the power module 13, folding the power module 13 to the back of the optical PPG sensor.

The transmission unit 122 includes a bluetooth module, transmits the collected signal data through bluetooth, and allows the user terminal 30 to transmit a control command to a medium. The Bluetooth module makes the user can connect own cell-phone etc. with the ring, looks over own health status on cell-phone APP to and can incorporate into hospital big data in the future, let the doctor can accurately judge own health status and change trend, give the countermeasure in advance. In other embodiments, the transmission unit 122 may be a WiFi module.

The ring 11 comprises an annular outer shell 112 and an inner shell 113 arranged at the inner ring of the annular outer shell 112, a mounting cavity is formed between the annular outer shell 112 and the inner shell 113, and further, the circuit board 12 is wound in the mounting cavity along the circumferential direction. Preferably, the ring 11 is a smooth circular arc, and is made of stainless steel or the like to reduce its weight, and finally, to achieve a very small volume and a very light weight, so as to make the user wear the ring as imperceptible as possible. Of course, the ring 11 can be made of different materials such as plastic, metal, and sealant.

In other embodiments, the ring 11 may also include two symmetrical ring-shaped shells, which are assembled and fastened to form a mounting cavity therein.

As shown in fig. 5, the power module 13 includes a battery 131, a power management module 132, and a power supply module 133; the battery 131 and the power supply module 133 are electrically connected to the power management module 132, respectively, and the power supply module 133 charges the battery 131 with external energy through the power management module 132.

In some embodiments, the power supply module 133 includes a charging interface 1331, the charging interface 1331 includes a charging electrode, and the inner ring of the ring 11 is provided with a charging port 114 for exposing the charging electrode, and when charging, the charging electrode can contact with a contact on a charging seat, so as to allow an external power source to charge the battery 131. Preferably, the charging electrodes of the ring may be copper plated or a metallic material that can attract magnetism.

Further, in other embodiments, the power supply module 133 further includes a wireless charging coil 1332 electrically connected to the power management module 132, and when charging, the wireless charging cradle converts the external power into the battery 131 for charging through the wireless charging coil 1332.

The wireless charging coil 1332 may be placed on the internal circuit board 12 in the form of a loop coil, or may be attached to the inner wall surface of the ring 11 in the form of a metal coil. When wireless charging is employed, the charging electrode structure may not be required.

The power module 13 further includes a power distribution module 134 electrically connected to the power management module 132, wherein the power distribution module 134 is electrically connected to the processor 121, the pulse acquisition unit 123, the temperature acquisition unit 124, and the motion sensing unit 125, respectively.

The power management module 132 provides a charging protection function and is connected to the power distribution module 134 to distribute the power supply voltage required by each portion of the ring. The microprocessor 121 schedules the operation of each sensor and transmits data through the transmission unit 122.

The battery 131 is arc-shaped and extends circumferentially in the mounting cavity.

When the electric quantity of ring is not enough, have some suggestion on the cell-phone APP, require to charge.

When the electric quantity of ring is not enough, LED1231 on the optics PPG sensor can send the scintillation that naked eye discernment can remind the user to charge.

In a specific using process, the intelligent ring 10 can be worn on any finger, and a user is recommended to wear the intelligent ring at a position which does not affect daily work, activities and rest and feels comfortable, and the optical PPG sensor is attached to the palm surface.

After the mobile phone is connected with the mobile phone through the Bluetooth, the mobile phone end receives data transmitted by the ring, then the data are uploaded to the server 20, the calculation of health data such as blood pressure, heart rate and blood oxygen saturation is achieved on the server 20, and the health data of all users can be collected to serve as a background management platform and can be linked with a hospital.

The calculated blood pressure, heart rate and blood oxygen saturation can be sent back to the mobile phone end from the server 20, the result can be viewed on the mobile phone, and when an abnormal phenomenon occurs, the mobile phone can prompt. After the finger ring starts to work, the LED1231 on the finger ring can emit red light or green light through the transparent window 1232, and then the finger ring enters a normal working mode.

It is to be understood that the above-described respective technical features may be used in any combination without limitation.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A multifunctional intelligent ring (10) is characterized by comprising a ring (11), a circuit board (12) and a power module (13) electrically connected with the circuit board (12);

a mounting cavity is arranged in the ring (11), and the power module (13) and the circuit board (12) are arranged in the mounting cavity;

the circuit board (12) is provided with a processor (121), a transmission unit (122) and at least one of a pulse acquisition unit (123), a temperature acquisition unit (124) and a motion sensing unit (125), and the transmission unit (122), the pulse acquisition unit (123), the temperature acquisition unit (124) and the motion sensing unit (125) are in communication connection with the processor (121);

be equipped with collection mouth (111) on the inner circle lateral wall of ring (11), collection mouth (111) with pulse acquisition unit (123), temperature acquisition unit (124) position correspond, with follow collection mouth (111) gather user's information.

2. The multifunctional smart ring (10) of claim 1, wherein the pulse acquisition unit (123) is an optical PPG sensor, the temperature acquisition unit (124) is an NTC temperature sensor, and the motion sensing unit (125) is a 3D motion sensor.

3. The multi-functional smart ring (10) of claim 1, wherein the power module (13) includes a battery (131), a power management module (132), and a power module (133);

the battery (131) and the power supply module (133) are respectively electrically connected with the power management module (132), and the power supply module (133) charges the battery (131) with external energy through the power management module (132).

4. The multifunctional smart ring (10) as claimed in claim 3, wherein the power supply module (133) comprises a charging interface (1331), the charging interface (1331) comprises a charging electrode, and the inner ring of the ring (11) is provided with a charging interface (114) for exposing the charging electrode; and/or the presence of a gas in the gas,

the power module (133) further includes a wireless charging coil (1332) electrically connected to the power management module (132).

5. The multi-functional smart ring (10) of claim 3, wherein the power module (13) further comprises a power distribution module (134) electrically connected to the power management module (132), the power distribution module (134) being electrically connected to the processor (121), the pulse acquisition unit (123), the temperature acquisition unit (124), and the motion sensing unit (125), respectively.

6. The multi-functional smart ring (10) of claim 3, wherein the battery (131) is arcuate and extends circumferentially within the mounting cavity.

7. The multifunctional smart ring (10) of any one of claims 1 to 6 wherein the transmission unit (122) comprises a Bluetooth module or a WiFi module.

8. The multi-functional smart ring (10) of any one of claims 1 to 6, wherein the ring (11) includes an annular outer shell (112) and an inner shell (113) disposed within the annular outer shell (112), the annular outer shell (112) and the inner shell (113) forming the mounting cavity therebetween.

9. The multi-functional smart ring (10) of claim 8, wherein the circuit board (12) is a flexible circuit board that is circumferentially wrapped within the mounting cavity.

10. A healthcare system comprising the multi-functional smart ring (10) of any one of claims 1 to 9.

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