CN211534387U - Wearable equipment - Google Patents

Abstract

The utility model provides a wearable device. The wearable device comprises a device body, and an identity recognition sensor, a sign detector and a microprocessor which are arranged on the device body, wherein the microprocessor is electrically connected with the identity recognition sensor and the sign detector respectively; the identification sensor is configured to acquire identification feature information of a user of the wearable device; the vital sign detector is configured to detect a real-time biometric parameter of the user; the microprocessor is configured to verify the identity characteristic information acquired by the identity recognition sensor, trigger the physical sign detector to detect the real-time biological characteristic parameters of the user after the identity characteristic information passes verification, compare the real-time biological characteristic parameters detected by the physical sign detector with the reference biological characteristic parameters, and output a comparison result, wherein the comparison result is inconsistent, the real-time biological characteristic parameters are represented to be abnormal, the user can simply and quickly complete biological characteristic parameter detection by wearing the wearable equipment, and the detection process is convenient.

Description

Wearable equipment

Technical Field

The utility model relates to a detect technical field, especially relate to a wearable equipment.

Background

With the rapid development of socioeconomic and science and technology, people pay more attention to the health problem, and most of the current health examination needs blood detection. The existing blood detection equipment has complex structure and higher equipment cost, generally comprises a blood cell analyzer, a biochemical analyzer, an enzyme-labeling instrument, a spectrophotometer, a blood cell counter and other devices, and if a user performs blood detection in advance, the user needs to go to a special physical examination center or a hospital to perform the blood detection, so that the blood detection process is complex.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a wearable equipment, including setting up identification sensor, sign detector and the microprocessor on the body, this wearable equipment has biological characteristic parameter and detects the function and portable wearable characteristics, and the user can accomplish biological characteristic parameter through wearing this wearable equipment and detect, and the testing process is convenient.

On one hand, the wearable device comprises a device body, and an identity recognition sensor, a sign detector and a microprocessor which are arranged on the device body, wherein the microprocessor is respectively electrically connected with the identity recognition sensor and the sign detector;

the identification sensor is configured to acquire identification feature information of a user of the wearable device;

the vital signs detector is configured to detect real-time biometric parameters of the user;

the microprocessor is configured to verify the identity characteristic information acquired by the identity recognition sensor, trigger the sign detector to detect the real-time biological characteristic parameters of the user after the verification is passed, compare the real-time biological characteristic parameters detected by the sign detector with reference biological characteristic parameters, and output a comparison result, wherein the comparison of the real-time biological characteristic parameters with the reference biological characteristic parameters is inconsistent, and the real-time biological characteristic parameters are represented to be abnormal.

Further, the microprocessor comprises a first comparison circuit and a first control circuit, wherein the first comparison circuit is electrically connected with the identity recognition sensor and the first control circuit respectively;

the first comparison circuit is configured to compare the identity characteristic information of the user detected by the identity recognition sensor with reference identity characteristic information and send an identity characteristic information comparison result to the first control circuit; the real-time biological characteristic parameter is detected and compared with the reference biological characteristic parameter, and a comparison result is output;

the first control circuit is configured to trigger the sign detector to detect the biometric parameter of the user when the identity characteristic information is matched with the reference identity characteristic information.

Further, the microprocessor also comprises a memory and an information extraction circuit; the memory is configured to store a correspondence of biometric parameters to health information;

the information extraction circuit is configured to extract and output health information corresponding to the real-time biological characteristic parameter from the memory when the real-time biological characteristic parameter is inconsistent with the reference biological characteristic parameter.

Further, the correspondence between the biometric parameters and the health information stored in the memory includes:

a correspondence of a biometric parameter to an underlying disease, and/or a correspondence of the biometric parameter to a health improvement recommendation.

Further, the wearable device further comprises a display panel electrically connected with the information extraction circuit, the display panel configured to display the health information output by the information extraction circuit.

The touch panel is electrically connected with the microprocessor;

the touch panel is configured to receive authentication information input by the user when the identity characteristic information is inconsistent with reference identity characteristic information;

the first comparison circuit is further configured to compare authentication information input by the user with reference authentication information and send an authentication information comparison result to the first control circuit;

the first control circuit is further configured to trigger the vital sign detector to detect a real-time biometric parameter of the user when the authentication information input by the user is consistent with reference authentication information.

Further, a distance sensor is included, the distance sensor being electrically connected to the microprocessor, the distance sensor being configured to detect a distance between the wearable device and at least one electronic device;

the microprocessor further comprises a distance comparison circuit and a control circuit, wherein the distance comparison circuit is electrically connected with the control circuit, the distance sensor is electrically connected with the control circuit, the distance comparison circuit is configured to compare the distance detected by the distance sensor with a preset distance threshold value and transmit the distance comparison result to the control circuit, and the control circuit is configured to trigger the at least one electronic device to execute at least one operation when the distance does not exceed the preset distance threshold value.

The air detection device comprises an air detection sensor and an information display device, wherein the microprocessor is electrically connected with the air detection sensor and the information display device respectively;

the air detection sensor is configured to detect air quality of an environment in which the wearable device is located and transmit the detected air quality to the microprocessor;

the information presentation device is configured to present the air quality transmitted by the microprocessor.

Further, the information presentation device includes at least one of a display panel, an audio player, and an indicator light.

Further, the identification sensor comprises a fingerprint sensor;

the condition detector includes at least one of a blood detector, a blood glucose detector, and a blood pressure detector.

Further, the wearable device is a glove, the fingerprint recognition sensor is arranged at a fingertip portion of the glove and connected with the microprocessor, and the fingerprint recognition sensor is configured to acquire fingerprint information of the user and transmit the fingerprint information to the microprocessor after the user wears the glove.

Further, sign detector with fingerprint identification sensor all sets up in indicate the point portion.

Further, wearable equipment includes at least two sign detectors, at least two sign detectors are located the different toe portion of gloves, respectively with microprocessor is connected.

Further, the wearable device further comprises a display panel, wherein the display panel is arranged on the back of the hand body of the glove and is electrically connected with the microprocessor;

the display panel is configured to display data information sent to it by the microprocessor.

Compared with the prior art, the utility model discloses a following advantage:

the embodiment of the utility model provides an in, wearable equipment includes the equipment body to and set up identification sensor, sign detector and microprocessor on the equipment body, microprocessor respectively with identification sensor and sign detector electric connection, based on the setting of above-mentioned device and function, make wearable equipment have authentication function, biological characteristic parameter detection function and biological characteristic parameter judgement function, the user can be through wearing this wearable equipment, biological characteristic parameter detection is accomplished simply swiftly, the testing process is convenient.

Drawings

Fig. 1 is a schematic structural diagram of a wearable device provided in an embodiment of the present invention;

fig. 2 is a flowchart of a control method of a wearable device according to an embodiment of the present invention.

Reference numerals

Glove body 1 fingerprint identification sensor 2 noninvasive blood detection device 3

Display panel 4 distance sensor 5 transceiver 6 database 7

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplified description, but do not indicate or imply that the machine or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

The embodiment of the utility model provides a wearable device, which comprises a device body, and an identity recognition sensor, a sign detector and a microprocessor which are arranged on the device body, wherein the microprocessor is respectively electrically connected with the identity recognition sensor and the sign detector;

wherein the identification sensor is configured to acquire identification feature information of a user of the wearable device;

the vital sign detector is configured to detect a real-time biometric parameter of the user;

the microprocessor is configured to verify the identity characteristic information acquired by the identity recognition sensor, trigger the physical sign detector to detect the real-time biological characteristic parameters of the user after the identity characteristic information passes verification, compare the real-time biological characteristic parameters detected by the physical sign detector with the reference biological characteristic parameters, and output a comparison result, wherein the comparison of the real-time biological characteristic parameters with the reference biological characteristic parameters is inconsistent, and the real-time biological characteristic parameters are represented to be abnormal.

The embodiment of the utility model provides a wearable equipment can be multiple, like gloves, glasses etc.

The identity recognition sensor is used for acquiring identity characteristic information of a user of the wearable device and sending the acquired identity characteristic information to the microprocessor. The identity characteristic information is a unique identifier of the user, and the identity characteristic information can comprise various types, such as fingerprint information, pupil information and the like. The identification sensor may include a plurality of types based on different types of the acquired identification feature information, for example, a fingerprint identification sensor for acquiring fingerprint information, an image identification sensor for acquiring pupil information, and the like, and a specific form of the identification sensor may be selected and set according to the actual situation.

The sign detector is used for detecting real-time biological characteristic parameters of a user of the wearable device and sending the detected biological characteristic parameters to the microprocessor. The biometric parameters may be sign information, and may include one or more of blood parameters, blood glucose parameters, blood pressure parameters, and vision parameters. Based on different types of detected biological characteristic parameters, different structural functions of the sign detector need to be configured, and the sign detector can include multiple types, such as a blood detector, a blood pressure detector, a blood glucose detector, and the like.

The blood parameters may specifically include Peripheral Pulse Rate (PPR), blood oxygen saturation (SpO)₂) Hemoglobin (Hb), partial pressure of carbon dioxide (PCO)₂) Oxygen partial Pressure (PO)₂) Mean pulse pressure (MAP), Cardiac Output (CO), cardiac output per Stroke (SV), total carbon dioxide (TCO)₂) Oxygen content (O)₂CT), hematocrit (Hct), Red Blood Cells (RBC), pH, and bloodLiquid viscosity (BV), and the like. The sign detector can be a noninvasive medical detection device, and the noninvasive medical detection device is used for detecting the signs of a user, so that the signs are detected in a noninvasive mode, and the user experience is improved. The noninvasive medical treatment detector is prior art, the utility model discloses no longer describe here.

The reference biological characteristic parameter indicates that the physical sign of the user is normal, can be set according to the medical industry standard, and can be stored in the microprocessor in advance.

The microprocessor receives and verifies the identity characteristic information acquired by the identity recognition sensor, triggers the physical sign detector to detect the real-time biological characteristic parameters of the user after the verification is passed, compares the real-time biological characteristic parameters detected by the physical sign detector with the reference biological characteristic parameters, and outputs a comparison result.

For realizing the above function of microprocessor, the embodiment of the utility model provides an among the wearable equipment, microprocessor can set up to following structure: the microprocessor can comprise a first comparison circuit and a first control circuit, wherein the first comparison circuit is electrically connected with the identity recognition sensor and the first control circuit respectively; the first comparison circuit is configured to compare the identity characteristic information of the user detected by the identity recognition sensor with the reference identity characteristic information and send an identity characteristic information comparison result to the first control circuit; the first comparison circuit is further configured to compare the detected real-time biometric parameter with a reference biometric parameter and output a comparison result; the first control circuit is configured to trigger the sign detector to detect the biometric parameter of the user when the identity characteristic information is matched with the reference identity characteristic information.

The reference identity characteristic information is the identity characteristic information of the authorized user, and can be pre-stored in the first comparison circuit or a certain memory, and the memory is electrically connected with the first comparison circuit and is used for extracting the reference identity characteristic information from the memory.

The comparison rule between the real-time biometric parameter and the reference biometric parameter can be set according to the actual setting, for example, when the real-time biometric parameter exceeds the reference biometric parameter, the microprocessor judges that the comparison result is inconsistent, the real-time biometric parameter is abnormal, and indicates that the user may have a health problem, otherwise, the real-time biometric parameter is normal, specifically, for example, when the detected blood pressure value is greater than a preset blood pressure threshold value, the blood pressure of the user is judged to be abnormal, and the user has a blood pressure hidden danger.

For another example, when the difference value between the real-time biological characteristic parameter and the reference biological characteristic parameter exceeds a preset difference value, the microprocessor judges that the comparison result is inconsistent, and the real-time biological characteristic parameter is abnormal; otherwise, judging that the real-time biological characteristic parameters are normal. For another example, when the ratio of the real-time biometric parameter to the reference biometric parameter exceeds a preset ratio, the microprocessor judges that the comparison result is inconsistent and the real-time biometric parameter is abnormal, otherwise, the microprocessor judges that the real-time biometric parameter is normal. And other biological characteristic parameter comparison rules and judgment methods can be adopted, and all the applicable comparison rules and judgment methods can be adopted.

Based on the setting of above-mentioned functional module and device for wearable equipment has authentication function, biological characteristic parameter and detects function and biological characteristic parameter judgement function, and the user can be through wearing this wearable equipment, and biological characteristic parameter detection, medical treatment detection are accomplished simply swiftly, and the testing process is convenient.

Besides, the wearable device can further comprise a transceiver, the microprocessor is electrically connected with the transceiver, the microprocessor can send the real-time biological characteristic parameters to the network server through controlling the transceiver after receiving the real-time biological characteristic parameters sent by the sign detector, reference biological characteristic parameters are stored in the network server in advance, the network server compares the received real-time biological characteristic parameters with the reference biological characteristic parameters, and judges whether the real-time biological characteristic parameters are abnormal or not according to a comparison result, further, the network server can send the judgment result to the wearable device for the wearable device to output, and informs a user of a biological characteristic detection result. In order to enable the wearable device to have the function of outputting the judgment result sent by the network server, further, the wearable device can be configured with an information display device, the information display device is electrically connected with the microprocessor and is configured to display the judgment result sent by the microprocessor to the information display device for a user to check. The information presentation device may include a variety of devices, for example, at least one of a display panel, an audio player, and an indicator light.

Further, the wearable device may further include a touch panel electrically connected to the microprocessor, and the touch panel may be configured to receive authentication information input by the user when the identity characteristic information is inconsistent with the reference identity characteristic information; the first comparison circuit can be also configured to compare the authentication information input by the user with the reference authentication information and send the authentication information comparison result to the first control circuit; the first control circuit may be further configured to trigger the vital sign detector to detect the real-time biometric parameter of the user when the authentication information input by the user is consistent with the reference authentication information.

The reference identity characteristic information is identity characteristic information of an authorized user of the wearable device; the reference authentication information may be pre-stored by an authorized user of the wearable device and may include one or a combination of two or more of a variety of forms, such as numeric, alphabetical, textual, graphical, and trajectory information.

When the microprocessor judges that the comparison between the real-time identity characteristic information and the reference identity characteristic information is inconsistent, the microprocessor can send a starting instruction to the touch panel to start the touch panel. The wearable device can send an indication that the identity characteristic information verification fails to pass to the user, and specifically, if the wearable device comprises a display, the display is electrically connected with the microprocessor, the microprocessor can control the display to display indication related information and inform the user of inputting authentication information through the touch panel; if the wearable device comprises the audio player, the audio player is electrically connected with the microprocessor, the microprocessor can control the audio player to play voice to indicate related information and inform a user of inputting authentication information through the touch panel; other suitable user notification means are also possible. And then the touch panel receives authentication information input by a user through the touch panel and sends the authentication information to the microprocessor, the microprocessor compares the received authentication information with prestored reference authentication information after receiving the authentication information input by the user, and when the received authentication information is consistent with the prestored reference authentication information, the microprocessor controls the physical sign detector to detect the real-time biological characteristic parameters of the user.

The touch panel has a touch function and may have a display function. When the touch panel is a touch display panel, data output or received by the wearable device can be displayed on the touch panel, and information such as the indication that the identity characteristic information verification fails, the health information, the detected biometric parameter, the detected identity characteristic information of the user and the like can be displayed on the touch panel for the user to check.

The touch panel is arranged, the identity authentication method of the wearable device is added, and when the identity characteristic information acquired by the identity recognition sensor fails to be authenticated, the wearable device can execute the identity authentication operation again by controlling the touch panel, so that the functions of the wearable device are enriched.

In the wearable device provided by the embodiment of the utility model, the microprocessor can also comprise a memory and an information extraction circuit; the memory is configured to store the corresponding relation between the biological characteristic parameters and the health information; the information extraction circuit is configured to extract and output health information corresponding to the real-time biological characteristic parameter from the memory when the real-time biological characteristic parameter is inconsistent with the reference biological characteristic parameter. The correspondence of the biometric parameter to the health information may include a variety of relationships, such as a correspondence of the biometric parameter to an underlying disease and/or a correspondence of the biometric parameter to a health improvement recommendation. Based on the memory and the information extraction circuit, the wearable device has a health information output function, and the functions of the wearable device are enriched.

Further, the wearable device may further include a display panel electrically connected to the information extraction circuit, and the display panel may be configured to display the health information output by the information extraction circuit. Based on display panel's setting for wearable equipment has health information display function, and the user can know the health information that obtains through looking over display panel's demonstration content, has further richened wearable equipment's function, has improved user experience.

In addition to the display panel, the wearable device may further include an audio player electrically connected to the microprocessor, and the audio player may be configured to play the health information sent by the microprocessor in voice. The user can know the health information of self through listening the audio frequency that wearable equipment broadcast. Based on the setting of audio player for wearable equipment has the function of the healthy information of pronunciation broadcast, and the user can know the healthy information of microprocessor output through the speech information of listening the audio player broadcast, has further richened wearable equipment's function, has improved user experience.

In the wearable device provided by the embodiment of the present invention, the wearable device further includes a distance sensor, the distance sensor is electrically connected to the microprocessor, and the distance sensor can be configured to detect a distance between the wearable device and at least one electronic device;

the microprocessor may further include a distance comparison circuit and a control circuit, the distance comparison circuit is electrically connected to the control circuit, the distance sensor is electrically connected to the control circuit, the distance comparison circuit is configured to compare the distance detected by the distance sensor with a preset distance threshold and transmit the distance comparison result to the control circuit, and the control circuit is configured to trigger the at least one electronic device to perform at least one operation when the distance does not exceed the preset distance threshold.

The electronic device may include a variety of devices, such as a room lock, a vehicle lock, a home appliance, a car, a window, a mobile phone, a computer, and the like. The microprocessor is internally preset with a preset distance threshold value of the wearable device and the electronic device, and when the microprocessor judges that the detected distance meets the distance threshold value condition, if the detected distance does not exceed the preset distance threshold value, the microprocessor judges that the wearable device and the electronic device are successfully matched, and triggers the electronic device to execute an operation. The operation to be performed by the electronic device may include various operations, such as opening or closing, unlocking or unlocking the electronic device, opening or closing a door of an automobile, and the like. For example, when the wearable device is a glove and the electronic device is a door lock, if the microprocessor of the glove determines that the distance between the glove and the door lock is smaller than a preset distance threshold, it is determined that the glove and the door lock are successfully matched, and the door lock is triggered to be automatically opened.

Based on distance sensor's setting for wearable equipment has the function that triggers electronic equipment to carry out corresponding operation, and the user only can realize the control of triggering to electronic equipment through wearing this wearable equipment, has saved the relevant operation of user to electronic equipment, has richened wearable equipment's function, has improved user experience.

In the wearable device provided by the embodiment of the utility model, the wearable device can further comprise a distance sensor and a transceiver, the distance sensor is electrically connected with the microprocessor, and the transceiver is electrically connected with the microprocessor; wherein the distance sensor is configured to detect a distance of the wearable device from the electronic device; the transceiver is configured to send the identification information to the electronic device when the detected distance satisfies a distance threshold condition, such as when the detected distance does not exceed a preset distance threshold, so that the electronic device verifies the identification information, and controls the working state according to the verification result. The identification information may be various, such as identification feature information obtained by an identification sensor in the wearable device. The electronic device may store a distance threshold condition and identification information of the authorized user in advance, where the distance threshold condition may be set according to the actual situation, for example, the detected distance is smaller than a preset distance threshold.

When a user uses the wearable device, a distance sensor in the wearable device can detect the distance between the wearable device and the electronic device, when the distance between the wearable device and the electronic device meets a distance threshold condition, a transceiver sends identity characteristic information of the current user acquired by an identity recognition sensor to the electronic device, after the electronic device receives the identity characteristic information of the current user sent by the wearable device, a comparator in the electronic device compares the identity characteristic information of the current user with pre-stored identity characteristic information of an authorized user, and sends a comparison result to a control circuit electrically connected with the comparator, and when the identity characteristic information is compared to be consistent, the control circuit of the electronic device controls the electronic device to start working.

Based on the above process, when the electronic device is an air conditioner, if the distance between the wearable device and the electronic device meets the distance threshold condition, if the distance does not exceed the preset distance threshold, the user can directly activate the air conditioner by wearing the wearable device in a close range, and start the air conditioner to work; when electronic equipment is the lock, if the distance of wearable equipment and lock satisfies apart from the threshold value condition, when wearable equipment places on the lock like smart gloves, then the user can directly open the lock through wearing smart gloves, need not key or door card unblock convenient operation.

In the wearable device provided by the embodiment of the utility model, the wearable device can also comprise an air detection sensor and an information display device, and the microprocessor is respectively electrically connected with the air detection sensor and the information display device; the air detection sensor is configured to detect air quality of an environment in which the wearable device is located and transmit the detected air quality to the microprocessor; the information display device is configured to display the air quality transmitted by the microprocessor for a user to check. The air detection sensor may be enabled through a variety of preset operations, such as triggering a preset option, pressing a designated key, etc.

The information presentation device may include a variety of devices, such as at least one of a display panel, an audio player, and an indicator light. When the wearable device is provided with the display panel, the microprocessor is electrically connected with the display panel, and the microprocessor can display the air quality fed back by the air detection sensor on the display panel for a user to check; when the wearable device is provided with the indicating lamp, the microprocessor is electrically connected with the indicating lamp and can indicate the grade of the air quality by controlling the display color of the indicating lamp; when the wearable device is provided with the audio player, the microprocessor is electrically connected with the audio player and can output the air quality in an audio form for a user to listen to; other suitable air quality display forms are also possible.

The setting of empty gas detection surveys the sensor for wearable equipment has had the air quality and has detected the function, and the user can know environmental quality through using this wearable equipment, has further enriched wearable equipment's function.

The embodiment of the utility model provides an among the wearable equipment, wearable equipment can also include the database, and the parameter and the condition that use among the above-mentioned a plurality of operation processes all can be stored in the database, like referring to biological characteristic parameter, referring to identity characteristic information, apart from threshold value condition etc. and all can be stored in the database, when microprocessor used above-mentioned parameter or condition, can follow and read required data and use in the database. The database can be programmed in the microprocessor or can be a data memory independent of the microprocessor, and the microprocessor is electrically connected with the data memory.

The wearable equipment provided by the embodiment of the utility model can be in various forms, such as gloves, glasses and the like, the gloves can detect fingerprint information of a user as identity characteristic information, and the detection of characteristic information of blood, blood pressure, blood sugar and the like is carried out on the user; the glove can detect the pupil information of the user as identity characteristic information, detect the characteristic information such as eyesight of the user and the like. To the form of wearable equipment, the utility model discloses only exemplify here, do not do the restriction, all can be applicable wearable equipment's form.

The embodiment of the utility model provides an identification sensor can include the multiple, like fingerprint identification sensor, the sign detector can include the multiple, like at least one in blood detector, blood glucose detector and the blood pressure detector.

When wearable equipment is the gloves, the identification sensor includes fingerprint identification sensor, when sign detector includes at least one in blood detector, blood glucose detector and the blood pressure detector, fingerprint identification sensor can set up the fingertip portion at the gloves, is connected with microprocessor, and fingerprint identification sensor is configured as when the user dresses the gloves after, acquires user's fingerprint information and transmits it to microprocessor. Based on the setting of fingerprint identification sensor for wearable equipment has the fingerprint and detects the function, and wearable equipment can judge fingerprint information, thereby accomplishes the verification to user's identity characteristic information.

The position of fingerprint identification sensor and sign detector can be set up according to the reality, and for example, sign detector and fingerprint identification sensor can all set up at the point portion that indicates.

The number of physical signs detectors can be set according to the actual configuration, for example, the wearable device can comprise at least two physical signs detectors, which are located at different fingertips of the glove and are respectively connected with the microprocessor.

If the wearable device further comprises a display panel, the position of the display panel can be actually set, for example, the display panel can be arranged on the back body of the glove and electrically connected with the microprocessor; the display panel may be configured to display data information sent to it by the microprocessor.

Fig. 1 is the embodiment of the utility model provides a structural schematic diagram of intelligent gloves, can know by fig. 1 that intelligent gloves include gloves body 1, fingerprint identification sensor 2, noninvasive blood detection device 3, display panel 4, distance sensor 5, transceiver 6 and database 7, and fingerprint identification sensor 2 and noninvasive blood detection device 3 set up respectively in the fingertip position department of gloves body 1. The database 7 stores threshold values, preset conditions and the like required in the using process of the intelligent gloves. The structure, function and the relation of connection of above-mentioned part are as in intelligent gloves the embodiment of the utility model provides a it is preceding, the utility model discloses do not do too much repetitious description here.

Based on the structure and functions of the intelligent glove shown in fig. 1, the intelligent glove can realize the functions of fingerprint detection, fingerprint identification, medical detection, medical data analysis and output and the like. In addition, the intelligent gloves can be used with the electronic equipment in a matched mode, a user can control the electronic equipment to execute operation by wearing the intelligent gloves, if the electronic equipment is triggered to start, the user can conveniently control the electronic equipment.

The embodiment of the utility model provides a wearable equipment's control method is still provided. Fig. 2 is a flowchart of a control method for a wearable device provided in an embodiment of the present invention, where the method is applied to the wearable device provided in an embodiment of the present invention, the control method includes:

101. identity feature information of a user of the wearable device is obtained.

102. And judging whether to detect the real-time biological characteristic parameters of the user according to the identity characteristic information of the user.

103. And when the real-time biological characteristic parameters of the user are detected, comparing the detected real-time biological characteristic parameters with the reference biological characteristic parameters, and outputting a comparison result.

And when the real-time biological characteristic parameters are not consistent with the reference biological characteristic parameters in comparison, the comparison result represents that the real-time biological characteristic parameters are abnormal.

Based on the setting of above-mentioned functional module and device for wearable equipment has authentication function, biological characteristic parameter and detects function and biological characteristic parameter and judge the function, and the user can be through wearing this wearable equipment, and biological characteristic parameter detection is accomplished simply swiftly, and the testing process is convenient.

Further, the step of determining whether to detect the real-time biometric parameters of the user according to the identity characteristic information of the user may include:

and comparing the identity characteristic information of the user with the reference identity characteristic information, and detecting the biological characteristic parameters of the user when the identity characteristic information of the user is consistent with the reference identity characteristic information.

Further, the control method may further include:

and when the real-time biological characteristic parameters are inconsistent with the reference biological characteristic parameters in comparison and the real-time biological characteristic parameters are judged to be abnormal, analyzing the real-time biological characteristic parameters and outputting health information.

Further, the health information may include at least one of a potential illness and a health improvement recommendation of the user.

Further, the identity characteristic information may include fingerprint information, and the real-time biometric parameter includes at least one of a blood parameter, a blood glucose parameter, and a blood pressure parameter.

Further, the control method may further include: and when the identity characteristic information is inconsistent with the reference identity characteristic information in comparison, performing identity authentication in a mode of judging authentication information input by the user, and judging whether to detect the real-time biological characteristic parameters of the user according to the authentication information.

Further, the control method may further include: detecting a distance of the wearable device from the at least one electronic device;

judging whether the wearable equipment is paired with at least one electronic equipment or not according to the distance;

and when the pairing is successful, triggering at least one electronic device to execute at least one operation.

Further, the step of determining whether the wearable device is paired with at least one electronic device according to the distance may include:

the detected distance is compared with a distance threshold, and when the detected distance is smaller than the distance threshold, the wearable device is triggered to be paired with the at least one electronic device.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The wearable device provided by the present invention is described in detail above, and the principle and the implementation of the present invention are explained herein by applying specific examples, and the description of the above examples is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (14)

1. A wearable device is characterized by comprising a device body, and an identity recognition sensor, a sign detector and a microprocessor which are arranged on the device body, wherein the microprocessor is respectively electrically connected with the identity recognition sensor and the sign detector;

the identification sensor is configured to acquire identification feature information of a user of the wearable device;

the vital signs detector is configured to detect real-time biometric parameters of the user;

the microprocessor is configured to verify the identity characteristic information acquired by the identity recognition sensor, trigger the sign detector to detect the real-time biological characteristic parameters of the user after the verification is passed, compare the real-time biological characteristic parameters detected by the sign detector with reference biological characteristic parameters, and output a comparison result, wherein the comparison of the real-time biological characteristic parameters with the reference biological characteristic parameters is inconsistent, and the real-time biological characteristic parameters are represented to be abnormal.

2. The wearable device of claim 1, wherein the microprocessor comprises a first comparison circuit and a first control circuit, the first comparison circuit being electrically connected to the identification sensor and the first control circuit, respectively;

the first comparison circuit is configured to compare the identity characteristic information of the user detected by the identity recognition sensor with reference identity characteristic information and send an identity characteristic information comparison result to the first control circuit; the real-time biological characteristic parameter is detected and compared with the reference biological characteristic parameter, and a comparison result is output;

the first control circuit is configured to trigger the sign detector to detect the biometric parameter of the user when the identity characteristic information is matched with the reference identity characteristic information.

3. The wearable device of claim 1, wherein the microprocessor further comprises a memory and an information extraction circuit; the memory is configured to store a correspondence of biometric parameters to health information;

the information extraction circuit is configured to extract and output health information corresponding to the real-time biological characteristic parameter from the memory when the real-time biological characteristic parameter is inconsistent with the reference biological characteristic parameter.

4. The wearable device of claim 3, wherein the correspondence of the biometric parameters and the health information stored in the memory comprises:

a correspondence of the biometric parameter to an underlying disease, and/or a correspondence of the biometric parameter to a health improvement recommendation.

5. The wearable device of claim 3, further comprising a display panel electrically connected to the information extraction circuit, the display panel configured to display health information output by the information extraction circuit.

6. The wearable device of claim 2, further comprising a touch panel electrically connected to the microprocessor;

the touch panel is configured to receive authentication information input by the user when the identity characteristic information is inconsistent with reference identity characteristic information;

the first comparison circuit is further configured to compare authentication information input by the user with reference authentication information and send an authentication information comparison result to the first control circuit;

the first control circuit is further configured to trigger the vital sign detector to detect a real-time biometric parameter of the user when the authentication information input by the user is consistent with reference authentication information.

7. The wearable device of claim 1, further comprising a distance sensor in electrical communication with the microprocessor, the distance sensor configured to detect a distance of the wearable device from at least one electronic device;

the microprocessor further comprises a distance comparison circuit and a control circuit, wherein the distance comparison circuit is electrically connected with the control circuit, the distance sensor is electrically connected with the control circuit, the distance comparison circuit is configured to compare the distance detected by the distance sensor with a preset distance threshold value and transmit the distance comparison result to the control circuit, and the control circuit is configured to trigger the at least one electronic device to execute at least one operation when the distance does not exceed the preset distance threshold value.

8. The wearable device according to claim 1, further comprising an air detection sensor and an information presentation device, the microprocessor being electrically connected to the air detection sensor and the information presentation device, respectively;

the air detection sensor is configured to detect air quality of an environment in which the wearable device is located and transmit the detected air quality to the microprocessor;

the information presentation device is configured to present the air quality transmitted by the microprocessor.

9. The wearable apparatus of claim 8, wherein the information presentation device comprises at least one of a display panel, an audio player, and an indicator light.

10. The wearable device of claim 1, wherein the identification sensor comprises a fingerprint recognition sensor;

the condition detector includes at least one of a blood detector, a blood glucose detector, and a blood pressure detector.

11. The wearable device according to claim 10, wherein the wearable device is a glove, the fingerprint recognition sensor is disposed at a fingertip portion of the glove and connected to the microprocessor, and the fingerprint recognition sensor is configured to acquire fingerprint information of the user and transmit the fingerprint information to the microprocessor after the user wears the glove.

12. The wearable device of claim 11,

sign detector with fingerprint identification sensor all sets up indicate point portion.

13. Wearable device according to claim 11, characterized in that it comprises at least two sign detectors located at different fingertips of the glove, respectively connected to the microprocessor.

14. The wearable device of claim 11, further comprising a display panel disposed on the glove dorsal body in electrical communication with the microprocessor;

the display panel is configured to display data information sent to it by the microprocessor.

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