CN212281342U - Intelligent watch with healthy driving monitoring function - Google Patents

Abstract

A smart watch with a healthy driving monitoring function, comprising: a circuit board; the health information detection circuit is arranged on the circuit board and used for detecting body information of a wearer; the wireless transmission circuit is arranged on the circuit board and is used for being connected with a vehicle; and the control circuit is arranged on the circuit board, is connected with the body information detection circuit and the wireless transmission circuit and is used for executing corresponding response actions after the control circuit unlocks the vehicle through the wireless transmission circuit and if the body information detected by the body information detection circuit reaches a preset range. The intelligent watch with the healthy driving monitoring function unlocks a vehicle through the wireless transmission circuit, and then detects body information of a wearer through the healthy information detection circuit so as to judge whether the body condition of the user meets the driving requirement or not, and improve the driving safety.

Description

Intelligent watch with healthy driving monitoring function

Technical Field

The utility model relates to an intelligence wearing formula equipment, especially an intelligent wrist-watch with healthy driving monitoring function.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

The existing intelligent watch key combined with the vehicle key can be worn on the wrist, so that functions of vehicle identification control, time display and the like are realized, and the situations of losing, forgetting to carry and the like are not easy to occur. However, the smart watch key still has the problem of single function and cannot meet the requirements of users.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a smart watch with a healthy driving monitoring function, which can perform safe driving monitoring for the body information of the wearer.

A smart watch with a healthy driving monitoring function, comprising:

a circuit board;

the health information detection circuit is arranged on the circuit board and used for detecting body information of a wearer;

the wireless transmission circuit is arranged on the circuit board and is used for being connected with a vehicle;

and the control circuit is arranged on the circuit board, is connected with the body information detection circuit and the wireless transmission circuit and is used for executing corresponding response actions after the control circuit unlocks the vehicle through the wireless transmission circuit and if the body information detected by the body information detection circuit reaches a preset range.

Preferably, the health information detection circuit includes a body temperature sensor, the body temperature sensor is configured to detect body temperature information of a wearer, the response action includes an abnormal response action, and the control circuit executes the abnormal response action when the control circuit determines that the body temperature information is in an abnormal body temperature range.

Preferably, the health information detection circuit comprises a heart rate sensor for detecting heart rate information of the wearer, and the control circuit executes the abnormal response action when the control circuit determines that the heart rate information is in an abnormal heart rate range.

Preferably, the response action further includes an alert response action, and the control circuit executes the alert response action when the control circuit determines that the heart rate information is within the heart rate alert range.

Preferably, the health information detection circuit further comprises an blood oxygen sensor, the blood oxygen sensor is disposed on the circuit board and is used for detecting the blood oxygen saturation level of the wearer, and the control circuit executes the abnormal response action when the control circuit determines that the blood oxygen saturation level is in the blood oxygen abnormal range.

Preferably, the method further comprises the following steps: the health information detection circuit further comprises a blood pressure sensor, the blood pressure sensor is arranged on the circuit board and used for detecting blood pressure information of a wearer, and when the control circuit determines that the blood pressure information is in an abnormal range of blood pressure, the control circuit executes the abnormal response action.

Preferably, the blood pressure abnormality range includes a high blood pressure abnormality range and a low blood pressure abnormality range, and the control circuit executes the abnormality response action when the blood pressure information is in the high blood pressure abnormality range or the low blood pressure abnormality range;

and when the control circuit determines that the blood pressure information is in a blood pressure warning range, the control circuit executes the warning response action.

Preferably, the abnormal response action includes uploading the body information to a server, responding to an abnormal state when the server confirms that the wearer is in the abnormal state, and the warning response action includes emitting a sound signal or a light signal for warning.

Preferably, the control circuit further obtains vehicle information to determine whether the vehicle is in a driving state, and when the vehicle is determined to belong to the driving state, the abnormal response action further comprises controlling the vehicle to decelerate and sending a distress signal according to preset contact information.

Preferably, the alert responsive action and the abnormal responsive action further comprise issuing a prompt as to whether the wearer is driving properly.

Compared with the prior art, the intelligent watch with the healthy driving monitoring function unlocks the vehicle through the wireless transmission circuit, and then detects the body information of the wearer through the health information detection circuit so as to judge whether the body condition of the user meets the driving requirement or not, and the driving safety is improved.

Further, the smart watch divides the response actions into warning response actions and abnormal response actions according to the type and strength of the detected identity information, and the smart watch sends out warning response actions, such as sending out warning information and the like, when the smart watch is slightly uncomfortable; for larger physical discomfort, the intelligent watch can upload physical information to the server for reconfirming, and execute operations such as controlling vehicle deceleration or sending distress signals to further reduce the driving risk of the wearer, thereby realizing the function of driving the vehicle healthily.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a schematic structural diagram of the front face of a smart watch with a healthy driving monitoring function.

Fig. 2 is a schematic structural diagram of the back of a smart watch with a healthy driving monitoring function.

Fig. 3 is a schematic structural diagram of a circuit board of the smart watch with a healthy driving monitoring function.

Description of the main elements

Intelligent watch	100
		Watchband	200
Heart rate sensor	110
		Display screen	111
Body temperature sensor	120
		Blood oxygen sensor	130
Blood pressure sensor	140
		Health information detection circuit	150
Control circuit	160
		Communication circuit	170
Wireless transmission circuit	180
		Low frequency transmissionTransfusion device	181
High frequency transmitter	182
		Circuit board	190
Charging stand	300
		Charging plug	310

The following detailed description of the invention will be further described in conjunction with the above-identified drawings.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be described in detail with reference to the accompanying drawings and detailed description. In addition, the embodiments and features of the embodiments of the present application may be combined with each other without conflict. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, and the described embodiments are merely some embodiments, rather than all embodiments, of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In various embodiments of the present invention, for convenience of description and not limitation, the term "connected" as used in the specification and claims of the present invention is not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships are changed accordingly.

Fig. 1 is a schematic structural diagram of the front side of a smart watch with a healthy driving monitoring function, and fig. 2 is a schematic structural diagram of the back side of the smart watch with the healthy driving monitoring function. As shown in fig. 1 and 2, the smart watch 100 may be square or circular in shape, but is not limited to this. The front of the smart watch 100 is provided with a display screen 111, and keys can be arranged around the display screen 111 to input operation signals and operate an internal operation system; the display 111 may also be a touch display 111. The smart watch 100 may also include a watchband 200 to be worn about the wrist of the wearer. In some embodiments, a power storage battery and a charging and discharging circuit are provided in the smart watch 100, and a replaceable disposable battery may also be provided. In addition, the smart watch 100 further includes a charging dock 300, the charging dock 300 charges the storage battery through a charging and discharging circuit, and the charging dock 300 can also be electrically connected to the external power source through a USB charging plug 310.

Fig. 3 is a schematic structural diagram of a circuit board 190 of the smart watch 100 with a driving health monitoring function, and in conjunction with fig. 1-2, the smart watch 100 with a driving health monitoring function is further provided with a circuit board 190 inside. The circuit board 190 is provided with a health information detection circuit 150, a wireless transmission circuit 180, a control circuit 160 and a communication circuit 170.

The wireless transmission circuit 180 is disposed on the circuit board 190 for connecting with a vehicle. In this embodiment, the wireless transmission circuit 180 includes a low frequency transmitter 181 and a high frequency transmitter 182 electrically connected to the control circuit 160, respectively, the low frequency transmitter 181 can receive an external wake-up signal, and the control circuit 160 can control the high frequency transmitter 182 to transmit a control signal with key information.

Correspondingly, the vehicle is also provided with a base station, the base station is provided with a base station low-frequency transmitter 181 and a base station high-frequency transmitter 182, the base station low-frequency transmitter 181 can send a wake-up signal outwards at any time, the low-frequency signal can be set to be in a small transmission range, power is saved, and in the design, the low-frequency communication frequency 125kHz and the high-frequency communication frequency 433.92MHz can be adopted. When a user enters a receiving range, a receiving channel of the low-frequency transmitter 181 of the smart watch 100 is matched with a channel of the base station low-frequency transmitter 181, the low-frequency transmitter 181 can receive a wake-up signal sent by the base station low-frequency transmitter 181, then the control circuit 160 sends a signal with key information to respond, a base station of a vehicle receives response information, identifies the key information and the vehicle, and receives a control signal if the identification is successful; meanwhile, a user can input a control signal through a key, the control circuit 160 controls the high frequency transmitter 182 to send the control signal to the base station high frequency transmitter 182, and the vehicle controller receives the control signal to control the vehicle component.

The communication circuit 170 is used for performing connection and interaction with the outside in a wireless manner, in this embodiment, the communication circuit 170 is connected and interacted with a vehicle or a mobile phone terminal through a bluetooth signal, or connected and interacted with a server through a 4G signal.

The health information detection circuit 150 is disposed on the circuit board 190 and is used for detecting the body information of the wearer. In this embodiment, the health information detecting circuit 150 includes a body temperature sensor 120, a heart rate sensor 110, a blood oxygen sensor 130, and a blood pressure sensor 140.

The body temperature sensor 120 is used for detecting body temperature information of a wearer, and specifically, the body temperature sensor 120 is a thermistor or an integrated temperature sensor chip. In some embodiments, the at least one body temperature sensor 120 is capable of being in contact with a user, and the sensed temperature information is user body temperature information. The plurality of body temperature sensors 120 can be used for detecting the same or mutually close positions, for example, when the body temperature of a user is detected, the skin near the same position can be detected to obtain a plurality of detection data, the control circuit 160 can optimize and analyze the plurality of detection data, an optimized temperature value is obtained by averaging and the like, and the detection accuracy is improved.

The heart rate sensor 110 is used to detect heart rate information of the wearer. In this embodiment, the heart rate sensor 110 is disposed on the back of the smart watch 100 and electrically connected to the control circuit 160. The heart rate sensor 110 may be a conventional heart rate sensor 110 chip, and is exposed on the back of the smart watch 100 to enable contact with the user. When worn by the user, the heart rate sensor 110 is in contact with the human body, thereby detecting heart rate information and transmitting the heart rate information to the control circuit 160.

The blood oxygen sensor 130 is disposed on the circuit board 190 for detecting the oxygen saturation level of the wearer. The oxygen saturation level (SpO2) is the percentage of the volume of oxygenated hemoglobin bound by oxygen (HbO2) in the blood to the total bindable hemoglobin (Hb) volume, i.e. the concentration of blood oxygen in the blood, which is an important physiological parameter of the respiratory cycle. The current photo-blood oxygen sensor 130 can be reflective type and transmissive type. The reflective blood oxygen sensor 130 is, for example, a Si1171 biometric optical sensor of Silicon Labs (also known as "core technology"). The transmissive blood oxygen sensor 130 can be a Silicon Labs Si1181 biometric optical sensor (integrated PD + AFE inside).

The blood pressure sensor 140 is disposed on the circuit board 190 and is used for detecting the blood pressure information of the wearer. The blood pressure sensor 140 can be made of a force sensitive chip with high accuracy and high stability by strict and precise temperature compensation and special design. For example, an inexpensive optical tool for measuring blood flow changes using photoplethysmography (PPG), and a thin film force sensor for measuring pressure, are disclosed in a paper of the journal scientific transformational Medicine. The skin is pressed on the sensor, and the blood pressure information of the user is calculated by a matched algorithm.

The control circuit 160 includes a controller for controlling other circuit elements. The Controller includes, but is not limited to, a Central Processing Unit (CPU), a Micro Controller Unit (MCU), and other devices for interpreting computer instructions and Processing data in computer software. After the control circuit 160 unlocks the vehicle through the wireless transmission circuit 180, if it is determined that the body information detected by the body information detection circuit reaches the preset range, the control circuit 160 executes a corresponding response action.

In this embodiment, the response action includes an abnormal response action and an alert response action. Depending on the type and magnitude of the identity information, the control circuit 160 triggers an exception response action or an alert response action. By way of example, the triggering of the response action is described below.

First, in the normal range, the control circuit 160 will not trigger a response action

1. Heart rate information: 60-120 times/min;

2. body temperature information: 36-37.5 ℃;

3. oxygen saturation of blood: 95% -99%;

4. blood pressure information: the normal value of hypertension is 135-85 mmHg, and the normal value of hypotension is as follows: 90-60 mmHg.

Secondly, triggering conditions of the warning response action:

1. heart rate information: less than 59 times/min and more than 120 times/min;

2. hypertension warning value: 135-150 mmHg;

when any one of the above conditions of the body information is satisfied, the control circuit 160 can be triggered to execute the alarm response action.

Thirdly, triggering conditions of abnormal response actions:

1. heart rate information: less than 50 times/min and more than 130 times/min;

2. body temperature information: below 35.5 ℃ and above 38.5 ℃;

3. oxygen saturation of blood: less than 95 percent;

4. blood pressure information: hypertension is 150mmHg or more, and hypotension is 60mmHg or less.

When any of the above-mentioned conditions of the body information is satisfied, the control circuit 160 can be triggered to execute the abnormal response operation. In the case where the body information satisfies both the abnormality response action and the warning response action, the control circuit 160 executes the abnormality response action.

The smart watch 100 may set the implementation manner of the abnormal response action and the warning response action according to actual needs. By way of example, alert response actions include, but are not limited to, the following implementations:

1. the smart watch 100 emits an audible or light signal that alerts, such as constantly flashing windows to display an alert banner and a shock.

2. Text or picture information prompting or warning the vehicle owner whether the vehicle is suitable to be driven or reminding the vehicle owner to safely drive is displayed on the display screen 111 of the smart watch 100.

The exception response action includes, but is not limited to, the following implementations:

1. the body information is uploaded to a server, and when the server confirms that the wearer is in an abnormal state, the server responds to the abnormal state, for example, the abnormal data is recorded, and corresponding warning information is sent to the smart watch 100.

2. The controller acquires vehicle information to determine whether the vehicle is in a driving state, and controls the vehicle to decelerate when the vehicle is determined to belong to the driving state;

3. and sending out a distress signal according to preset contact information, for example, dialing a distress call according to preset telephone information or sending out a distress short line. The telephone information may be the telephone number of the targeted person or may be the telephone number of other rescue authorities, such as a hospital emergency call.

Obviously, the abnormal response action may also use the above-mentioned related manner of the warning response action. The above-described implementations may be applied simultaneously or selectively and individually without conflict.

After the vehicle is unlocked through the wireless transmission circuit 180, the intelligent watch 100 with the healthy driving monitoring function detects the body information of the wearer through the healthy information detection circuit 150, so as to judge whether the body condition of the user meets the driving requirement, and improve the driving safety.

Further, the smart watch 100 may further divide the response actions into a warning response action and an abnormal response action according to the type and the strength of the detected identity information, and the smart watch 100 may issue a warning response action, such as issuing warning information, for slight physical discomfort; for larger physical discomfort, the smart watch 100 may upload the physical information to the server for reconfirmation, and perform operations such as controlling the vehicle to decelerate or sending a distress signal to further reduce the driving risk of the wearer, thereby implementing the function of driving the vehicle healthily.

In the several embodiments provided in the present invention, it should be understood that it is obvious to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. The terms first, second, etc. are used to denote names, but not any particular order.

The above embodiments are only used to illustrate the technical solutions of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the above preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced equivalently without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A smart watch with a healthy driving monitoring function, comprising:

a circuit board;

the health information detection circuit is arranged on the circuit board and used for detecting body information of a wearer;

the wireless transmission circuit is arranged on the circuit board and is used for being connected with a vehicle;

and the control circuit is arranged on the circuit board, is connected with the body information detection circuit and the wireless transmission circuit and is used for executing corresponding response actions after the control circuit unlocks the vehicle through the wireless transmission circuit and if the body information detected by the body information detection circuit reaches a preset range.

2. The smart watch with a healthy driving monitoring function according to claim 1, wherein the health information detection circuit includes a body temperature sensor for detecting body temperature information of the wearer, and the response action includes an abnormal response action, and the control circuit executes the abnormal response action when the control circuit determines that the body temperature information is in an abnormal body temperature range.

3. The smart watch with a healthy driving monitoring function according to claim 2, wherein the health information detection circuit includes a heart rate sensor for detecting heart rate information of the wearer, and the control circuit executes the abnormal response action when the control circuit determines that the heart rate information is in an abnormal range of heart rate.

4. The smart watch with a healthy driving monitoring function of claim 3, wherein the response action further comprises an alert response action, and the control circuit executes the alert response action when the control circuit determines that the heart rate information is in a heart rate alert range.

5. The smart watch with a driving health monitoring function as claimed in claim 4, wherein the health information detection circuit further comprises a blood oxygen sensor disposed on the circuit board for detecting the oxygen saturation level of blood of the wearer, and the control circuit executes the abnormal response action when the control circuit determines that the oxygen saturation level of blood is in an abnormal range of blood oxygen.

6. The smart watch with a healthy driving monitoring function according to claim 5, further comprising: the health information detection circuit further comprises a blood pressure sensor, the blood pressure sensor is arranged on the circuit board and used for detecting blood pressure information of a wearer, and when the control circuit determines that the blood pressure information is in an abnormal range of blood pressure, the control circuit executes the abnormal response action.

7. The smart watch with a healthy driving monitoring function according to claim 6, wherein the blood pressure abnormality range includes a high blood pressure abnormality range and a low blood pressure abnormality range, and the control circuit executes the abnormality response action when the blood pressure information is in the high blood pressure abnormality range or the low blood pressure abnormality range;

and when the control circuit determines that the blood pressure information is in a blood pressure warning range, the control circuit executes the warning response action.

8. The smart watch with a healthy driving monitoring function according to claim 7, wherein the abnormal response action includes uploading the physical information to a server, responding to an abnormal state when the server confirms that the wearer is in the abnormal state, and wherein the warning response action includes emitting a warning sound signal or a warning light signal.

9. The smart watch with a healthy driving monitoring function according to claim 8, wherein the control circuit further obtains vehicle information to determine whether the watch is in a driving state, and when the watch is determined to be in the driving state, the abnormal response action further comprises controlling the vehicle to decelerate, and sending a distress signal according to preset contact information.

10. The smart watch with a healthy driving monitoring function of claim 9, wherein the alert response action and the abnormal response action further include issuing a prompt whether the wearer is driving properly.

Images