CN202761270U - Wrist strap type physiological information monitoring device - Google Patents

Abstract

The utility model provides a wrist strap type physiological information monitoring device. The physiological information monitoring device comprises a device main body, a physiological signal detecting unit, a physiological signal processing unit, a control unit, a data transmission unit and a memory unit, wherein the data transmission unit is used for receiving data, which is related with a detected person and sent by a terminal, and used for sending the data to the memory unit, and/or receiving physiological information sent by the physiological signal processing unit or the memory unit and sending the physiological information to the terminal; and the memory unit is used for storing the data related with the detected person and sent by the data transmission unit, and/or the physiological information sent by the physiological signal processing unit. The wrist strap type physiological information monitoring device can achieve data transmission with the terminal and store the data transmitted by the terminal.

Description

A kind of wrist carried physiologic information monitoring device

Technical field

This utility model belongs to the armarium technical field, is specifically related to a kind of wrist carried physiologic information monitoring device.

Background technology

Wrist carried physiologic information monitoring device is a kind of portable physiological monitor; the user is by being worn over it on wrist; can be in daily routines or motor process the human body physiological parameters such as monitor heart rate fluctuation and blood oxygen, thereby the user can monitor the health status of self.And, by means of wrist carried physiologic information monitoring device, the human body movement datas such as step number, distance, quantity of motion and calorie consumption of all right monitor user ' when motion, thereby realize user's exercise intensity is monitored, surpass the load of heart and health with the motion that prevents the user, perhaps quantity of motion is not enough.

For example, Granted publication as shown in Figure 1, is the theory diagram of heart rate monitoring watch number for the Chinese utility model patent of CN 201879683U discloses a kind of heart rate monitoring watch.Heart rate monitoring watch comprises table body, pressure transducer 1, data line 2, data processor 3, video signal processing unit 4, display 5 and light emitting diode 6.Wherein, the table body is similar to general wristwatch, and the user can be worn over it on wrist; Pressure transducer 1 is fixed on it the table, when the user will show body and be worn on the wrist, pressure transducer 1 is close to the skin at the radial artery place of user's wrist, in order to gathering user's radial artery fluctuation signal, and by data line 2 the radial artery fluctuation signal is sent to data processor 3; Data processor 3 is used for the radial artery fluctuation signal is converted to the heart beating fluctuation number of times of user's per minute, and sends it to video signal processing unit 4; Video signal processing unit 4 converts video signal to for number of times that heart beating is fluctuateed, and sends it to display 5; Display 5 is used for converting video signal to image and showing.In addition, data processor 3 also is used for heart beating fluctuation number of times and the normality threshold of user's per minute are compared, and judges whether the heart beating fluctuation number of times of user's per minute surpasses normality threshold, if then send luminous signal to light emitting diode 6; Light emitting diode 6 is used for luminous when receiving luminous signal, with the caution user.

By means of above-mentioned heart rate monitoring watch, heart beating fluctuation number of times that can Real-Time Monitoring user per minute, and surpass the normality threshold alarm at it, thus the user can be known self health at any time, and when burst disease, in time carry out first aid process.But, because above-mentioned heart rate monitoring watch only has monitoring and warning function, and the function that does not possess the data storage and transmit, namely, can't receive and store by computer, the terminals such as mobile phone send and the user's that comes identity information, case history, doctor's advice, the data such as operation record and check result, also can't be with the heart rate information that detects to terminal transmission, when causing carrying out first aid process when user's burst disease and in hospital, the doctor often can not normally link up because of user's morbidity, relatives do not wait at the scene former thereby can't in time know user's history information, the rescue opportunity that this not only can delay the user causes user's aggravation even brings life danger; But also can not occur because the doctor does not understand malpracticees such as causing inappropriate medication, emergency treatment mistake to patient's medical history.

The utility model content

This utility model is intended to solve at least one of technical problem that exists in the prior art, has proposed a kind of wrist carried physiologic information monitoring device, can the transmission of data between itself and the terminal, and can store the data of being come by terminal transmission.

For realizing that the purpose of this utility model provides a kind of wrist carried physiologic information monitoring device, comprise device body, bio-signal acquisition unit, physiological single processing unit and control unit, wherein, described bio-signal acquisition unit is used for gathering detected person's physiological signal, and described physiological signal is sent to described physiological single processing unit; Described physiological single processing unit is used for described physiological signal is converted to physiologic information, and described physiologic information is sent; Described wrist carried physiologic information monitoring device also comprises data transmission unit and memory element, and wherein, described data transmission unit is used for receiving the next data relevant with the detected person by the terminal transmission, and sends it to described memory element; And/or receive by described physiological single processing unit or described memory element and send and the physiologic information that comes, and send it to terminal; Described memory element is used for storage and sends and next physiologic information from the data relevant with the detected person of described data transmission unit and/or by described physiological single processing unit; And described control unit is used for controlling the work of described bio-signal acquisition unit, physiological single processing unit, data transmission unit and memory element; Described device body is used for being worn over wrist for the user, and described physiological single processing unit, data transmission unit, memory element and control unit are arranged on the described device body.

Wherein, wrist carried physiologic information monitoring device also comprises connecting band and data line, and wherein, described connecting band is used for fixing described bio-signal acquisition unit, when the user was worn over wrist with described connecting band, the skin at user's radial artery place was close in described bio-signal acquisition unit; Described connecting band adopts elastomeric material to make, it is connected with described device body or is separate with described device body, when the user is worn over wrist with described device body and connecting band, described connecting band and device body are arranged side by side the wrist the user, and perhaps described connecting band wrist and the described device body of being close to the detected person is stacked on the described connecting band; Described data line comprises physiological signal transmission line and control signal transmission line, and wherein, described physiological signal transmission line is electrically connected with described bio-signal acquisition unit and physiological single processing unit respectively, in order to the transmission of data between the two; Described control signal transmission line is electrically connected with described bio-signal acquisition unit and control unit respectively, in order to the transmission of data between the two.

Wherein, be provided with the reference component that can move relative to described connecting band at described connecting band, described reference component be configured to when its with user-selected wrist on mutually concordant with reference to the position time, described bio-signal acquisition unit is relative with user's radial artery, and when the user was worn over wrist with described connecting band, described reference component was positioned at a side that deviates from user's wrist on the described connecting band.

Wherein, wrist carried physiologic information monitoring device also comprises input block, and it is arranged on the described device body, in order to receiving the operational order by user's input, and described operational order is sent to described control unit; Described control unit is controlled the work of described bio-signal acquisition unit, physiological single processing unit, data transmission unit and memory element according to described operational order.

Wherein, described bio-signal acquisition unit comprises the heart rate signal acquisition module, in order to gathering detected person's heart rate signal, and sends it to described physiological single processing unit; Described physiological single processing unit comprises the heart rate signal processing module, in order to receiving the heart rate signal from the heart rate signal acquisition module, and described heart rate signal is converted to heart rate information, then described heart rate information is sent; And/or described bio-signal acquisition unit comprises blood oxygen signal acquisition module, in order to gathering detected person's blood oxygen signal, and sends it to described physiological single processing unit; Described physiological single processing unit comprises blood oxygen signal processing module, in order to receiving the blood oxygen signal from blood oxygen signal acquisition module, and described blood oxygen signal is converted to blood oxygen information, then described blood oxygen information is sent.

Wherein, described heart rate signal acquisition module comprises luminous tube and photodetector, when the user is worn over described connecting band on the wrist, described luminous tube and photodetector are positioned at mutually the same side and be close to the skin at detected person's radial artery place of detected person's wrist, wherein, described luminous tube is used for sending optical signal to the interior tissue at detected person's radial artery place; The interior tissue at detected person's radial artery place reflexes to described photodetector with described optical signal; Described photodetector is for detection of the optical signal that is come by the reflection of described skin histology, and the optical signal that detects is converted to the signal of telecommunication, and the signal of telecommunication is sent to described heart rate signal processing module.

Wherein, described heart rate signal acquisition module comprises piezoelectric transducer, and described piezoelectric transducer is used for gathering the heart rate signal at detected person's radial artery place, and sends it to described heart rate signal processing module; Described piezoelectric transducer is arranged on the described connecting band, and when the user put on described connecting band, described piezoelectric transducer was close to the skin at detected person's radial artery place.

Wherein, described wrist carried physiologic information monitoring device also comprises motor message detecting unit and motor message processing unit, wherein, described motor message detecting unit is arranged on the described device body, in order to gathering the detected person at the motor message in when motion, and described motor message is sent to described motor message processing unit; Described motor message processing unit is arranged on the described device body, in order to converting described motor message to movable information, and described movable information is sent; And described memory element is used for receiving the next movable information by described motor message processing unit transmission, and sends it to described data transmission unit, and described data transmission unit is used for described movable information is sent to terminal.

Wherein, described motor message detecting unit comprises acceleration transducer and timer, and wherein, described acceleration transducer is used for gathering the acceleration of detected person when motion, and degree of will speed up is converted into the signal of telecommunication, then the described signal of telecommunication is sent to described motor message processing unit; Described timer is used for measuring detected person's movement time, and described movement time is converted into the signal of telecommunication, then the described signal of telecommunication is sent to described motor message processing unit.

Wherein, also comprise video signal processing unit and display unit, wherein, described video signal processing unit is arranged on the described device body, in order to the reception physiologic information next by the transmission of described physiological single processing unit, the movable information that is come by described motor message processing unit transmission and/or the next data relevant with the detected person by described memory element transmission, and convert thereof into video signal, then described video signal is sent to described display unit; Described display unit is used for converting described video signal to image and showing; Described display unit is arranged on the described device body; Perhaps described display unit and described device body are separate, and described video signal processing unit is sent to described data transmission unit with video signal; Described data transmission unit and described display unit adopt wireless mode transmission video signal; Described control unit and described display unit adopt wireless mode transmission of control signals.

Wherein, described wrist carried physiologic information monitoring device also comprises alarm unit, described alarm unit comprises evaluation module and prompting module, wherein said evaluation module is used for receiving the physiologic information that is come by the transmission of described physiological single processing unit and/or the movable information that is come by described movable information processing unit transmission, and described physiologic information and/or movable information and corresponding normality threshold compared, if described physiologic information and/or movable information surpass corresponding normality threshold, the health of then judging the detected person is in abnormality, then sends alerting signal to described prompting module; Described prompting module gives the alarm to the user according to described alerting signal, and the mode that described prompting module gives the alarm to the user comprises sound, light and/or vibration.

Wherein, described data transmission unit comprises GPRS positioning and communicating module, described GPRS positioning and communicating module is used for carrying out following operation: receives by described control unit and sends and the search control signal that comes, and according near the hospital the described search control signal search detected person present position and obtain the positional information of the hospital that has searched; Reception is sent by described control unit and the positioning control signal that comes, and according to the positional information of described positioning control signal acquisition detected person present position; Reception is sent by described control unit and the data transfer control signal that comes, and reads data relevant with the detected person in the described memory element according to described data transfer control signal, and is sent to the hospital that searches; And receive the next distress signals by described control unit transmission, and send it to the hospital that searches.

The utlity model has following beneficial effect:

The wrist carried physiologic information monitoring device that this utility model provides, its realize by data transmission unit and terminal between data transfer, and realize data storage by memory element, thereby can receive and store the data relevant with the detected person of self terminal, and then make the user can carry oneself identity information and history information, in case of need.For example, when user's burst disease need to carry out first aid process in hospital, the doctor can in time be known user's history information, understand and time of the diagnosis state of an illness and racing against time for giving emergency treatment to a patient thereby not only can shorten, but also can improve the accuracy of diagnosis and the treatment of the state of an illness, thereby can reduce the incidence rate of mistaken diagnosis, malpractice.

Description of drawings

Fig. 1 is the theory diagram of heart rate monitoring watch;

The wrist carried physiologic information monitoring device that Fig. 2 provides for this utility model the first embodiment

Theory diagram; And

The theory diagram of the wrist carried physiologic information monitoring device that Fig. 3 provides for this utility model the second embodiment.

The specific embodiment

For making those skilled in the art understand better the technical solution of the utility model, the wrist carried physiologic information monitoring device that comes this utility model is provided below in conjunction with accompanying drawing describes in detail.

The theory diagram of the wrist carried physiologic information monitoring device that Fig. 2 provides for this utility model the first embodiment.See also Fig. 2, wrist carried physiologic information monitoring device comprises device body (not shown), bio-signal acquisition unit 20, physiological single processing unit 21, memory element 22, data transmission unit 23 and control unit 24.Wherein, device body can adopt profile and the structure of similar wrist-watch, be worn over wrist to make things convenient for the user, and the device body of similar wrist-watch can comprise interconnective fixed part and connecting portion.Wherein, fixed part can adopt profile and the structure of similar dial plate etc., and physiological single processing unit 21, memory element 22, data transmission unit 23 and control unit 24 are fixed on the fixed part; Connecting portion can adopt profile and the structure of similar watchband etc., so that the user can be worn over wrist with fixed part by connecting portion.In addition, bio-signal acquisition unit 20 can be fixed on fixed part or the connecting portion, and is close to the skin at detected person's radial artery place when the user is worn over wrist with device body.

Bio-signal acquisition unit 20 is used for gathering detected person's physiological signal, and physiological signal is sent to physiological single processing unit 21.Particularly, the physiological signal that gathers of bio-signal acquisition unit 20 can comprise at least a signal in heart rate signal, blood oxygen signal and the pulse signal.In bio-signal acquisition unit 20, be provided with the physiological signal acquisition module that quantity equates with the quantity of its physiological signal that gathers, the physiological signal acquisition module is corresponding one by one with the physiological signal that the bio-signal acquisition unit gathers, in order to gathering corresponding with it physiological signal, and this physiological signal is sent to physiological single processing unit 21.

Physiological single processing unit 21 is used for physiological signal is converted to physiologic information, and this physiologic information is sent.Particularly, in physiological single processing unit 21, be provided with the physiological single processing module that quantity equates with the quantity of physiological signal acquisition module, and the physiological single processing module is corresponding one by one with the physiological signal acquisition module, in order to receive the physiological signal from corresponding with it physiological signal acquisition module, and be converted to corresponding physiologic information, then such as heart rate, pulse frequency and blood oxygen saturation etc. send this physiologic information.

For example, if the physiological signal that bio-signal acquisition unit 20 gathers is two kinds, be respectively heart rate signal and blood oxygen signal, then in bio-signal acquisition unit 20, be provided with accordingly heart rate signal acquisition module and blood oxygen signal acquisition module; And, in physiological single processing unit 21, be provided with accordingly heart rate signal processing module and blood oxygen signal processing module.

Wherein, the heart rate signal acquisition module is used for gathering detected person's heart rate signal, and sends it to the heart rate signal processing module.Particularly, the heart rate signal acquisition module can adopt dual mode to gather heart rate signal, the first acquisition mode is to adopt luminous tube and photodetector to gather detected person's heart rate signal, and the second acquisition mode is to adopt piezoelectric transducer to gather detected person's heart rate signal.

When adopting the first acquisition mode, the heart rate signal acquisition module comprises luminous tube and photodetector, luminous tube and photodetector can be fixed on fixed part or the connecting portion, and when the user is worn over wrist with device body, luminous tube and photodetector are positioned at mutually the same side of detected person's wrist, and the skin of being close to detected person's radial artery place, wherein, luminous tube is used for sending the optical signals such as infrared light to the interior tissue at detected person's radial artery place; The interior tissue at detected person's radial artery place reflexes to photodetector with optical signal; Photodetector is for detection of by interior tissue reflection and the optical signal that comes, and the optical signal that detects is converted to the signal of telecommunication, and the signal of telecommunication is sent to the heart rate signal processing module.The heart rate signal processing module is used for heart rate signal is converted to heart rate information, and heart rate information is sent.The interior tissue at so-called detected person's radial artery place refers in the human body wrist and is positioned near the radial artery tissue, is densely covered with a large amount of blood vessels in this tissue.Because the filling volume of blood can beating and change with heart in the blood vessel, and when optical signal shines interior tissue, the absorbance of blood can change with the change of blood engorgement amount, thereby the absorbance of blood can be indirectly beating and change with heart, this be so that also can be changed by the intensity of the optical signal of interior tissue reflection thereupon, thereby can indirectly be reflected the frequency of heartbeat by the Strength Changes of the optical signal of interior tissue reflection.

When adopting the second acquisition mode, the heart rate signal acquisition module comprises piezoelectric transducer, it can be fixed on fixed part or the connecting portion, and when the user is worn over wrist with device body, piezoelectric transducer is close to the skin at detected person's radial artery place, in order to gathering the heart rate signal at detected person's radial artery place, and send it to the heart rate signal processing module.The heart rate signal processing module is used for heart rate signal is converted to heart rate information, then heart rate information is sent.

Blood oxygen signal acquisition module is used for gathering detected person's blood oxygen signal, and sends it to blood oxygen signal processing module; Blood oxygen signal processing module is used for the blood oxygen signal is converted to blood oxygen information, and blood oxygen information is sent.

Data transmission unit 23 is used for the transmission of data between wrist carried physiologic information monitoring device and terminal, that is, reception is sent and the next data relevant with the detected person by the terminal such as computer or mobile phone etc., and sends it to memory element 22; And/or receive by physiological single processing unit 21 or memory element 22 and send and the physiologic information that comes, and send it to terminal.In actual applications, the data relevant with the detected person can comprise the data of user's identity information, case history, doctor's advice, operation record and check result etc.

Memory element 22 is used for storage and sends and next physiologic information from the data relevant with the detected person of data transmission unit 23 and/or by physiological single processing unit 21.Control unit 24 is used for the work of control bio-signal acquisition unit 20, physiological single processing unit 21, data transmission unit 23 and memory element 22.

By data transmission unit 23 received and stored self terminal with memory element 22 the data relevant with the detected person, can make the user can carry oneself identity information and history information, for the possible period of want or need.For example, when user's burst disease need to carry out first aid process in hospital, the doctor can in time be known user's history information, understand and time of the diagnosis state of an illness and striven for the time for giving emergency treatment to a patient thereby not only can shorten, but also can improve the accuracy of diagnosis and the treatment of the state of an illness, thereby reduced the incidence rate of mistaken diagnosis, malpractice.

In addition, in order to guarantee to be stored in the safety of the data relevant with the detected person in the memory element 22, leak out with the personal information that prevents the user, can in memory element 22, store authentication information in advance, this authentication information is used for the PKI as identifying user identity, it comprises username and password, in actual applications, the user can freely create one or more user names and the password corresponding with user name, thereby realizes the transfer of data between data transmission unit 23 and terminal is encrypted.When needing the transmission of data between data transmission unit 23 and the terminal, data transmission unit 23 receives by terminal and sends and next identity information, and send it to control unit 24, and this identity information is used for the private key as deciphering, and it comprises the username and password that is complementary with authentication information; The authentication information of control unit 24 reading pre-stored in memory element 22, and judge whether the identity information that comes and the authentication information that is stored in the memory element 22 mate by the terminal transmission, if then send the control signal of the transmission of datas to data transmission unit 23; If not, then send the control signal of refusal the transmission of data to data transmission unit 23.

In actual applications, can adopt wired or wireless mode to transmit the data relevant with the detected person, authentication information and/or identity information between data transmission unit 23 and the terminal.In actual applications, wireless transmission method can comprise bluetooth, 2.4G radio communication, infrared ray, Wi-Fi communication, worldwide interoperability for microwave access and at least a wireless transmission method during carrierfree is communicated by letter.

The theory diagram of the wrist carried physiologic information monitoring device that Fig. 3 provides for this utility model the second embodiment.See also Fig. 3, the wrist carried physiologic information monitoring device that present embodiment provides is compared with the first embodiment, comprises equally device body, bio-signal acquisition unit 20, physiological single processing unit 21, memory element 22, data transmission unit 23 and control unit 24.Because the function of above-mentioned each unit and module and the pass between each unit or the module tie up to and have had detailed description among the first embodiment, do not repeat them here.In addition, the wrist carried physiologic information monitoring device that provides of present embodiment also comprises connecting band (not shown), data line (not shown), input block 30, motor message detecting unit 31, motor message processing unit 32, video signal processing unit 33, display unit 34 and alarm unit 35.And,

Wherein, connecting band is used for fixing physiologically detecting signal unit 20, and when the user was worn over wrist with connecting band, the skin at detected person's radial artery place was close in bio-signal acquisition unit 20.And, connecting band adopts the elastomeric material of softnesses such as rubber band, nylon to make, so that when the user is worn over wrist with connecting band, bio-signal acquisition unit 20 can be better and the skin attachement at user's wrist radial artery place, thereby improve the sensitivity that bio-signal acquisition unit 20 detects physiological signals.In addition, connecting band can be connected with device body or be separate, that is, when connecting band was connected with device body, connecting band can be equivalent to the connecting portion of device body, and the user can be worn on the wrist by the fixed part of connecting band with device body.In this case, can save connecting portion, that is, the user only can be worn over fixed part on the wrist by connecting band, perhaps can also not only connecting portion be set but also connecting band is set, that is, the user is worn over fixed part on the wrist by connecting portion and connecting band simultaneously.Understand easily, if connecting band and device body are separate, then device body must arrange connecting portion, so that the user can be worn over fixed part on the wrist by connecting portion.And when the user was worn over wrist with device body and connecting band, connecting band and device body can be arranged side by side the wrist the user, and perhaps connecting band is close to detected person's wrist, and device body is stacked on the connecting band.

In addition, on connecting band, also be provided with the reference component that can move relative to connecting band, it can adopt the structures such as table hoop of similar fixedly watchband, and reference component be configured to when its with user-selected wrist on mutually concordant with reference to the position time, bio-signal acquisition unit 20 is relative with user's radial artery.Refer to melanotic nevus, the extended line etc. of blood vessel or certain finger position that can make things convenient for the user to remember clearly on user's wrist with reference to the position on the so-called user-selected wrist, the user can be according to the situation free setting of oneself.In addition, when the user was worn over wrist with connecting band, reference component was positioned at a side that deviates from user's wrist on the connecting band, adjusted the position of reference component to make things convenient for the user.By means of reference component with reference to the position, the user is in the process that connecting band is worn on the wrist, only need reference component with selected mutually concordant with reference to the position, can make bio-signal acquisition unit 20 relative with user's radial artery, thereby not only can make the detection of wrist carried physiologic information monitoring device more accurate, but also can make the user when being worn over connecting band on the wrist, more easily the radial artery place of oneself be aimed in bio-signal acquisition unit 20.

Data line comprises physiological signal transmission line and control signal transmission line.Wherein, the physiological signal transmission line is electrically connected with bio-signal acquisition unit 20 and physiological single processing unit 21 respectively, in order to the transmission of data between the two; The control signal transmission line is electrically connected with bio-signal acquisition unit 20 and control unit 24 respectively, in order to the transmission of data between the two.

Input block 30 is arranged on the device body, in order to receiving the operational order by user's input, and operational order is sent to control unit 24; Control unit 24 is according to the work of operational order control bio-signal acquisition unit, physiological single processing unit, data transmission unit and memory element.In actual applications, input block can be the parts such as button, keyboard or touch screen.

Motor message detecting unit 31 is arranged on the device body, in order to gathering the detected person at the motor message in when motion, and motor message is sent to motor message processing unit 32.Particularly, motor message detecting unit 31 comprises acceleration transducer and timer.Wherein, acceleration transducer be used for to gather the acceleration of detected person when motion, and degree of will speed up is converted into the signal of telecommunication, then the signal of telecommunication is sent to motor message processing unit 32; Timer is used for measuring detected person's movement time, and movement time is converted into the signal of telecommunication, then the signal of telecommunication is sent to motor message processing unit 32.

Motor message processing unit 32 is arranged on the device body, in order to converting motor message to movable information, and movable information is sent.In actual applications, movable information can comprise the relevant information of the exercise intensity at least a and user of step number, distance, quantity of motion and calorie consumption etc. of user when motion.By means of motor message detecting unit 31 and motor message processing unit 32, the wrist carried physiologic information monitoring device that present embodiment provides can be realized user's exercise intensity is monitored, surpass the load of heart and health with the motion that prevents the user, perhaps quantity of motion is not enough.In addition, memory element 22 can receive by motor message processing unit 32 and send and the movable information that comes, and sends it to data transmission unit 23, and data transmission unit 23 is sent to terminal with movable information.

Video signal processing unit 33 is arranged on the device body, in order to the reception physiologic information next by 21 transmissions of physiological single processing unit, the movable information that is come by 32 transmissions of motor message processing unit and/or the next data relevant with the detected person by memory element 22 transmissions, and convert thereof into video signal, then video signal is sent to display unit 34.

Display unit 34 is used for converting video signal to image and showing, in the present embodiment, display unit 34 can be arranged on the device body or be separate with device body.When display unit 34 and device body were separate, video signal processing unit 33 should be sent to video signal data transmission unit 23, and adopted wireless mode transmission video signal between data transmission unit 23 and the display unit 34; Control unit 24 adopts wireless mode transmission of control signals with display unit 34.In actual applications, display unit 34 can or have the external equipment of Presentation Function for display such as computer, mobile phone etc.

Alarm unit 35 is arranged on the device body, and it comprises evaluation module 351 and prompting module 352.Wherein, evaluation module 351 is used for receiving the physiologic information that is come by 21 transmissions of physiological single processing unit and/or the movable information that is come by 32 transmissions of movable information processing unit, and physiologic information and/or movable information and corresponding normality threshold compared, if physiologic information and/or movable information surpass corresponding normality threshold, the health of then judging the detected person is in abnormality, then sends alerting signal to prompting module 352.So-called corresponding normality threshold refers to one by one the highest and lowest threshold corresponding to normal physiologic values and/or the proper motion value of physiologic information and/or movable information.For example, when evaluation module 351 received the heart rate information (per minute detected person's heart beating number of times) next by the transmission of heart rate signal processing module, its highest and lowest threshold with heart rate information and normal cardiac rate (the heart beating number of times of per minute healthy human body) compared; If the heart rate information that receives exceeds the highest and lowest threshold of normal cardiac rate, judge that then detected person's health is in abnormality, then send alerting signal to prompting module 352.

Prompting module 352 gives the alarm to the user according to alerting signal, and the mode that prompting module 352 gives the alarm to the user comprises sound, light and/or vibration.

In addition, evaluation module 351 can be sent to video signal processing unit 33 with the assessment result of assessment physiologic information and/or movable information; Video signal processing unit 33 converts assessment result to video signal, then video signal is sent to display unit 34; Display unit 34 converts thereof into image and shows.

In the present embodiment, data transmission unit 23 also comprises GPRS positioning and communicating module 231, GPRS positioning and communicating module 231 is used for carrying out following operation: receives by control unit 24 and sends and the search control signal that comes, and according near the hospital the search control signal search detected person present position and obtain the positional information of the hospital that has searched; Reception is sent by control unit 24 and the positioning control signal that comes, and according to the positional information of positioning control signal acquisition detected person present position; Reception is sent and next data transfer control signal by control unit 24, and according to the data relevant with the detected person in the data transfer control signal reading cells 22, and be sent to the hospital that searches; And receive the next distress signals by control unit 24 transmissions, and send it to the hospital that searches.By means of GPRS positioning and communicating module 231, the user can be when burst disease to hospital send distress signals, self position information and with user-dependent data, thereby the hospital that receives distress signals can send ambulance according to the positional information that the user sends, and can and diagnose the state of an illness and carry out preparation according to understanding in advance with user-dependent data of sending of user, thereby not only give to give emergency treatment to a patient and striven for the time, and can understand more fully patient's history information, and then can improve the accuracy of diagnosis and the treatment of the state of an illness.

In the present embodiment, can adopt dual mode to send the operational order of distress signals, relevant search, location and/or transfer of data to control unit 24.Particularly, first kind of way is to adopt input block 30 to receive the operational order of the distress signals of user's input, relevant search, location and/or transfer of data, and then input block 30 is sent to control unit 24 with the operational order of distress signals, relevant search, location and/or transfer of data; The second way is to adopt data transmission unit 23 to receive by terminal to send and the operational order of the distress signals of coming, relevant search, location and/or transfer of data, and then data transmission unit 23 is sent to 24 control units with the operational order of distress signals, relevant search, location and/or transfer of data.Control unit 24 is sent to GPRS positioning and communicating module 231 with distress signals, and/or sends the control signal of relevant search, location and/or transfer of data to GPRS positioning and communicating module 231 according to the operational order of relevant search, location and/or transfer of data.

In addition, when prompting module 352 gives the alarm to the user, if control unit 24 does not receive any operational order in Preset Time, then control unit 24 sends distress signals and relevant search from trend GPRS positioning and communicating module 231, the location, the control signal of transfer of data and emergency, so that GPRS positioning and communicating module 231 sends distress signals to hospital, self position information and with user-dependent data, even thereby when the user can't carry out any operation because of body abnormality, the wrist carried physiologic information monitoring device that present embodiment provides also can be to the hospital's emergency that searches.

In the present embodiment, receive the hospital of distress signals in order to confirm whether the user who sends distress signals needs first aid really, can send the first aid inquiry message (namely to GPRS positioning and communicating module 231, put question to the information that whether needs first aid), this first aid inquiry message can be notified the user by display unit 34 and/or prompting module 352, particularly, when notifying the user by display unit 34, GPRS positioning and communicating module 231 receives after the first aid inquiry message, sends it to video signal processing unit 33; Video signal processing unit 33 converts the first aid inquiry message to video signal, then video signal is sent to display unit 34; Display unit 34 converts thereof into image and shows; When notifying the user by prompting module 352, GPRS positioning and communicating module 231 is sent to prompting module 352 with the first aid inquiry message; Prompting module 352 gives the alarm to the user according to the first aid inquiry message.

In addition, when display unit 24 shows that first aid inquiry message and/or prompting module 352 give the alarm, if control unit 24 receives by data transmission unit 23 or input block 30 and sends and the expression that comes confirms that the first aid of carrying out first aid confirms instruction, then send the first aid confirmations to GPRS positioning and communicating module 231; GPRS positioning and communicating module 231 is sent to hospital with the first aid confirmation; Meanwhile, control unit 24 is to the control signal of GPRS positioning and communicating module 231 transmissions about location and transfer of data; Then GPRS positioning and communicating module 231 sends detected person's positional information and the data relevant with the detected person according to obtaining the positional information of detected person present position and the data relevant with the detected person in the reading cells 22 about the location with the control signal of transfer of data to hospital.

And, when display unit 34 shows that first aid inquiry message and/or prompting module 352 give the alarm, if control unit 24 does not receive in Preset Time by data transmission unit 23 or input block 30 and sends and next first aid affirmation instruction, then control unit 24 sends the first aid confirmation from trend GPRS positioning and communicating module 231, sends simultaneously the control signal about location and transfer of data.Even thereby the wrist carried physiologic information monitoring device that present embodiment provides is when the user can't carry out any operation because of body abnormality, also can send the first aid confirmation to hospital, send simultaneously user position information and with user-dependent data.

Need to prove, in actual applications, when the pulse signal acquisition module is piezoelectric transducer, can make the user can carry out the grip measurement by piezoelectric transducer and connecting band.Particularly, with connecting band be fixed on be fit to grasp and can fixed object on, and piezoelectric transducer is positioned on the connecting band and deviates from a side of this object; When carrying out the grip measurement, be close to tape splicing with holding, and the force application part of hands and piezoelectric transducer applying, this moment, piezoelectric transducer can detect the size of grip, thereby finished the measurement of grip.By piezoelectric transducer and connecting band, the wrist carried physiologic information monitoring device that present embodiment provides can be realized the grip measurement, thereby can carry out at any time the exercise of arm muscle for the user, to improve self arm strength.

In sum, the wrist carried physiologic information monitoring device that present embodiment provides, its realize by data transmission unit and terminal between data transfer, and realize data storage by memory element, thereby can receive and store the data relevant with the detected person of self terminal, and then make the user can carry oneself identity information and history information, in case of need.For example, when user's burst disease need to carry out first aid process in hospital, the doctor can in time be known user's history information, understand and time of the diagnosis state of an illness and striven for the time for giving emergency treatment to a patient thereby not only can shorten, but also can improve the accuracy of diagnosis and the treatment of the state of an illness, thereby can reduce the incidence rate of mistaken diagnosis, malpractice.

Be understandable that above embodiment only is the illustrative embodiments that adopts for principle of the present utility model is described, yet this utility model is not limited to this.For those skilled in the art, in the situation that does not break away from spirit of the present utility model and essence, can make various modification and improvement, these modification and improvement also are considered as protection domain of the present utility model.

Claims (12)

1. a wrist carried physiologic information monitoring device comprises device body, bio-signal acquisition unit, physiological single processing unit and control unit, wherein

Described bio-signal acquisition unit is used for gathering detected person's physiological signal, and described physiological signal is sent to described physiological single processing unit;

Described physiological single processing unit is used for described physiological signal is converted to physiologic information, and described physiologic information is sent;

It is characterized in that described wrist carried physiologic information monitoring device also comprises data transmission unit and memory element, wherein

Described data transmission unit is used for receiving the next data relevant with the detected person by the terminal transmission, and sends it to described memory element; And/or receive by described physiological single processing unit or described memory element and send and the physiologic information that comes, and send it to terminal;

Described memory element is used for storage and sends and next physiologic information from the data relevant with the detected person of described data transmission unit and/or by described physiological single processing unit; And

Described control unit is used for controlling the work of described bio-signal acquisition unit, physiological single processing unit, data transmission unit and memory element;

Described device body is used for being worn over wrist for the user, and described physiological single processing unit, data transmission unit, memory element and control unit are arranged on the described device body.

2. wrist carried physiologic information monitoring device according to claim 1 is characterized in that, also comprises connecting band and data line, wherein

Described connecting band is used for fixing described bio-signal acquisition unit, and when the user was worn over wrist with described connecting band, the skin at user's radial artery place was close in described bio-signal acquisition unit;

Described connecting band adopts elastomeric material to make, it is connected with described device body or is separate with described device body, when the user is worn over wrist with described device body and connecting band, described connecting band and device body are arranged side by side the wrist the user, and perhaps described connecting band wrist and the described device body of being close to the detected person is stacked on the described connecting band;

Described data line comprises physiological signal transmission line and control signal transmission line, wherein

Described physiological signal transmission line is electrically connected with described bio-signal acquisition unit and physiological single processing unit respectively, in order to the transmission of data between the two;

Described control signal transmission line is electrically connected with described bio-signal acquisition unit and control unit respectively, in order to the transmission of data between the two.

3. wrist carried physiologic information monitoring device according to claim 2, it is characterized in that, be provided with the reference component that can move relative to described connecting band at described connecting band, described reference component be configured to when its with user-selected wrist on mutually concordant with reference to the position time, described bio-signal acquisition unit is relative with user's radial artery, and

When the user was worn over wrist with described connecting band, described reference component was positioned at a side that deviates from user's wrist on the described connecting band.

4. wrist carried physiologic information monitoring device according to claim 2 is characterized in that, also comprises input block, and it is arranged on the described device body, in order to receiving the operational order by user's input, and described operational order is sent to described control unit; Described control unit is controlled the work of described bio-signal acquisition unit, physiological single processing unit, data transmission unit and memory element according to described operational order.

5. wrist carried physiologic information monitoring device according to claim 4 is characterized in that, described bio-signal acquisition unit comprises the heart rate signal acquisition module, in order to gathering detected person's heart rate signal, and sends it to described physiological single processing unit; Described physiological single processing unit comprises the heart rate signal processing module, in order to receiving the heart rate signal from the heart rate signal acquisition module, and described heart rate signal is converted to heart rate information, then described heart rate information is sent; And/or

Described bio-signal acquisition unit comprises blood oxygen signal acquisition module, in order to gathering detected person's blood oxygen signal, and sends it to described physiological single processing unit; Described physiological single processing unit comprises blood oxygen signal processing module, in order to receiving the blood oxygen signal from blood oxygen signal acquisition module, and described blood oxygen signal is converted to blood oxygen information, then described blood oxygen information is sent.

6. wrist carried physiologic information monitoring device according to claim 5, it is characterized in that, described heart rate signal acquisition module comprises luminous tube and photodetector, when the user is worn over described connecting band on the wrist, described luminous tube and photodetector are positioned at mutually the same side and be close to the skin at detected person's radial artery place of detected person's wrist, wherein

Described luminous tube is used for sending optical signal to the interior tissue at detected person's radial artery place; The interior tissue at detected person's radial artery place reflexes to described photodetector with described optical signal;

Described photodetector is for detection of the optical signal that is come by the reflection of described skin histology, and the optical signal that detects is converted to the signal of telecommunication, and the signal of telecommunication is sent to described heart rate signal processing module.

7. wrist carried physiologic information monitoring device according to claim 5, it is characterized in that, described heart rate signal acquisition module comprises piezoelectric transducer, and described piezoelectric transducer is used for gathering the heart rate signal at detected person's radial artery place, and sends it to described heart rate signal processing module; Described piezoelectric transducer is arranged on the described connecting band, and when the user put on described connecting band, described piezoelectric transducer was close to the skin at detected person's radial artery place.

8. wrist carried physiologic information monitoring device according to claim 5 is characterized in that, described wrist carried physiologic information monitoring device also comprises motor message detecting unit and motor message processing unit, wherein

Described motor message detecting unit is arranged on the described device body, in order to gathering the detected person at the motor message in when motion, and described motor message is sent to described motor message processing unit;

Described motor message processing unit is arranged on the described device body, in order to converting described motor message to movable information, and described movable information is sent; And

Described memory element is used for receiving the next movable information by described motor message processing unit transmission, and sends it to described data transmission unit, and described data transmission unit is used for described movable information is sent to terminal.

9. wrist carried physiologic information monitoring device according to claim 8 is characterized in that, described motor message detecting unit comprises acceleration transducer and timer, wherein

Described acceleration transducer be used for to gather the acceleration of detected person when motion, and degree of will speed up is converted into the signal of telecommunication, then the described signal of telecommunication is sent to described motor message processing unit;

Described timer is used for measuring detected person's movement time, and described movement time is converted into the signal of telecommunication, then the described signal of telecommunication is sent to described motor message processing unit.

10. wrist carried physiologic information monitoring device according to claim 8 is characterized in that, also comprises video signal processing unit and display unit, wherein

Described video signal processing unit is arranged on the described device body, in order to the reception physiologic information next by the transmission of described physiological single processing unit, the movable information that is come by described motor message processing unit transmission and/or the next data relevant with the detected person by described memory element transmission, and convert thereof into video signal, then described video signal is sent to described display unit;

Described display unit is used for converting described video signal to image and showing;

Described display unit is arranged on the described device body; Perhaps

Described display unit and described device body are separate, and described video signal processing unit is sent to described data transmission unit with video signal; Described data transmission unit and described display unit adopt wireless mode transmission video signal; Described control unit and described display unit adopt wireless mode transmission of control signals.

11. wrist carried physiologic information monitoring device according to claim 10 is characterized in that, described wrist carried physiologic information monitoring device also comprises alarm unit, and described alarm unit comprises evaluation module and prompting module, wherein

Described evaluation module is used for receiving the physiologic information that is come by the transmission of described physiological single processing unit and/or the movable information that is come by described movable information processing unit transmission, and described physiologic information and/or movable information and corresponding normality threshold compared, if described physiologic information and/or movable information surpass corresponding normality threshold, the health of then judging the detected person is in abnormality, then sends alerting signal to described prompting module;

Described prompting module gives the alarm to the user according to described alerting signal, and the mode that described prompting module gives the alarm to the user comprises sound, light and/or vibration.

12. wrist carried physiologic information monitoring device according to claim 11 is characterized in that described data transmission unit comprises GPRS positioning and communicating module, described GPRS positioning and communicating module is used for carrying out following operation:

Reception is sent by described control unit and the search control signal that comes, and according near the hospital the described search control signal search detected person present position and obtain the positional information of the hospital that has searched;

Reception is sent by described control unit and the positioning control signal that comes, and according to the positional information of described positioning control signal acquisition detected person present position;

Reception is sent by described control unit and the data transfer control signal that comes, and reads data relevant with the detected person in the described memory element according to described data transfer control signal, and is sent to the hospital that searches; And

Reception is sent and next distress signals by described control unit, and sends it to the hospital that searches.

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