CN201617822U - Electrocardiogram monitoring terminal - Google Patents

Abstract

The utility model discloses an electrocardiogram monitoring terminal, which can provide various functions for bringing convenience for users to use. The electrocardiogram monitoring terminal comprises an electrocardiogram monitoring terminal body, a liquid crystal display screen and a function key, wherein the liquid display screen and the function key are arranged on the body, a central control unit, a signal collection processing unit and a positioning unit are arranged inside the body, the signal collection unit monitors the cardiac rhythm and the electrocardiogram R waves of the users in real time and transmits the cardiac rhythm and the electrocardiogram R waves of the users to the central control unit, the central control unit controls the liquid crystal screen according to the received data for displaying the cardiac rhythm and the electrocardiogram oscillogram to the users in real time, the central control unit judges whether the operation on the function key by the users is monitored or not, the central control unit notifies the positioning unit for executing the positioning function if YES, the positioning unit sends a positioning request to a service center of the electrocardiogram monitoring terminal, receives positioning response information carrying the user current position information returned by the service center of the electrocardiogram monitoring terminal, extracts the user current position, and sends the user current position to the central control unit, and the central control unit controls the liquid crystal screen for displaying the user current position.

Description

A kind of cardioelectric monitor terminal

Technical field

This utility model relates to the cardioelectric monitor technology, particularly a kind of cardioelectric monitor terminal.

Background technology

Cardiovascular disease is one of disease of serious harm human health, and early diagnosis is significant for prevention and treatment cardiovascular disease.The cardioelectric monitor terminal of for this reason developing promptly is the isoparametric equipment of a kind of monitor user ' rhythm of the heart in real time, and the data that monitor can be shown in real time.But the function ratio of existing cardioelectric monitor terminal is more limited, such as, can not be for the user provide self current position information, like this, if the user can not determine self current position, and when needing emergency, will in time notify the salvor, thereby incur loss through delay relief opportunity.

The utility model content

In view of this, main purpose of the present utility model is to provide a kind of cardioelectric monitor terminal, comparatively comprehensive various functions can be provided, thereby be user-friendly to.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of cardioelectric monitor terminal comprises: cardioelectric monitor terminal body and be positioned at LCDs and function key on the described cardioelectric monitor terminal body; Comprise in the described cardioelectric monitor terminal body: central control unit, signal acquisition process unit and positioning unit; Described central control unit links to each other respectively with described function key, LCDs, signal gathering unit and positioning unit;

The rhythm of the heart and the ecg-r wave of the real-time monitor user ' of described signal gathering unit, and give described central control unit with the transfer of data that monitors; Described central control unit is shown to the user according to the described LCDs of the Data Control that receives in real time with the rhythm of the heart and ecg wave form figure;

Simultaneously, after described central control unit monitors the operation of user at described function key, notify described positioning unit to carry out positioning function; Described positioning unit receives the notification message from described central control unit, service centre to described cardioelectric monitor terminal sends Location Request, and receive the location response information that carries the current position of user information that described service centre returns, extract the current position of user, send to described central control unit; Described central control unit is controlled described LCDs the current position of described user is shown to the user.

Preferably, further comprise on the described cardioelectric monitor terminal body: the display lamp and the buzzer that link to each other with described central control unit.

Preferably, further comprise on the described cardioelectric monitor terminal body: two assignment keys that link to each other with described central control unit; Further comprise in the described cardioelectric monitor terminal body: the wireless communication unit that links to each other with described central control unit;

Preserve the communicating number of each assignment key correspondence in the described central control unit, when monitoring the user, the communicating number corresponding with this assignment key that is pressed sent to described wireless communication unit at the operation of arbitrary assignment key; Described wireless communication unit utilizes wireless communication technology to call out the user of this communicating number correspondence.

Wherein, described wireless communication technology is: general packet radio service gprs technology, global system for mobile communications GSM technology, CDMA CDMA technology, 3G (Third Generation) Moblie 3G technology, or the 4th third-generation mobile communication 4G technology.

Preferably, further comprise in the described cardioelectric monitor terminal body: interconnected clock and record cell;

When described cardioelectric monitor starting up of terminal, the described service centre of clockwise sends the correction request signal when described, and the calibration response signal that carries current time information that returns according to described service centre, and the time of self is proofreaied and correct; Described record cell writes down the switching on and shutting down time of described cardioelectric monitor terminal according to the temporal information that described clock provides.

Preferably, further comprise in the described cardioelectric monitor terminal body: the data processing unit that links to each other with described signal gathering unit with described central control unit;

Described data processing unit receives and stores the data from described signal gathering unit, by described data are analyzed, extracts desired parameters and also preserves; Described desired parameters comprises: the maximum rhythm of the heart and the minimum rhythm of the heart;

Described central control unit is after determining described cardioelectric monitor starting up of terminal, with the last time of writing down in the described record cell start shooting the maximum rhythm of the heart and the minimum rhythm of the heart in the shutdown process of last time of preserving in the switching on and shutting down time in the shutdown process, the described data processing unit of starting shooting, and three grades of alarm times that the last time of self statistics starts shooting in the shutdown process are shown to the user by described LCDs.

Preferably, further comprise on the described cardioelectric monitor terminal body: charging inlet; Further comprise in the described cardioelectric monitor terminal body: the lithium battery that links to each other with described charging inlet, by described charging inlet described lithium battery is charged, so that being described cardioelectric monitor terminal, described lithium battery powers.

Preferably, further comprise on the described cardioelectric monitor terminal body: electrode interface; By described electrode interface described cardioelectric monitor terminal is connected to human body.

Further comprise on the described cardioelectric monitor terminal body: power key; Described central control unit monitor user ' is to the operation of described power key, to control described cardioelectric monitor starting up of terminal or shutdown.

Preferably, if described central control unit determines in the continuous scheduled time that described cardioelectric monitor terminal is only carried out the cardioelectric monitor function, then described cardioelectric monitor terminal is set to electricity-saving state.

As seen, cardioelectric monitor terminal described in the utility model can be on the rhythm of the heart that himself is provided in real time for the user and ecg wave form figure basis, further provide locating information for the user, like this, relief if desired, the user can in time notify salvor oneself current present position, makes things convenient for them to arrive in the spot as early as possible; And cardioelectric monitor terminal described in the utility model can produce warning automatically, in time understands oneself state to make things convenient for the user; Have, cardioelectric monitor terminal described in the utility model can be carried out remote call-in again, so that the user in time relates to distance relatives or friend far away.

Description of drawings

Fig. 1 is the external structure sketch map of cardioelectric monitor terminal body described in the utility model.

Fig. 2 is the internal structure sketch map of cardioelectric monitor terminal body described in the utility model.

The specific embodiment

At problems of the prior art, cardioelectric monitor terminal in this utility model after a kind of improvement of proposition, this cardioelectric monitor terminal not only has positioning function, and can judge abnormal conditions automatically, and can make the relatives or the friend of user by wireless communication technique remote call-in oneself with the generation warning.

Cardioelectric monitor terminal described in the utility model is by the cardioelectric monitor terminal body and be positioned at formations such as some buttons, LCDs (LCD) and interface on the main body.

For making the purpose of this utility model, technical scheme and advantage clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, this utility model is described in further detail.

Fig. 1 is outside (being the part that the user can the see) structural representation of cardioelectric monitor terminal body described in the utility model, and Fig. 2 is the internal structure sketch map of cardioelectric monitor terminal body described in the utility model.

As shown in Figure 1, the cardioelectric monitor terminal body is provided with LCD display 11 and a function key 12; Be provided with in the cardioelectric monitor terminal body: central control unit (CPU) 21, signal gathering unit 22 and positioning unit 23; Wherein, central control unit 21 links to each other respectively with signal gathering unit 22 and positioning unit 23, and simultaneously, LCD display 11 and function key 12 also are connected to central control unit 21 by the connecting line that is positioned at the cardioelectric monitor terminal body.

The rhythm of the heart and the ecg-r wave of signal gathering unit 22 real-time monitor user ', and give central control unit 21 with the transfer of data that monitors; Central control unit 21 is shown to the user according to the Data Control LCD display 11 that receives in real time with the rhythm of the heart and ecg wave form figure; Simultaneously, central control unit 21 judges whether to monitor the operation of user at function key 12, if then notify positioning unit 23 to carry out positioning function; After positioning unit 23 receives notification message from central control unit 21, service centre to the cardioelectric monitor terminal sends Location Request, and receive the location response information that carries the current position of user that service centre returns, extract the current position of user and send to central control unit 21; Central control unit 21 control LCD displays 11 are shown to the user with the current position of user.

As shown in Figure 1, also can further comprise on the cardioelectric monitor terminal body: display lamp 13 and buzzer 14, both all link to each other with central control unit 21.The data that central control unit 21 receives from signal gathering unit 22 determine whether and need report to the police to the user according to pre-defined rule, if determine further that then alarm level is that one-level, secondary still are three grades; If be one-level, then only control display lamp 13 and carry out flashing light alarm; If be secondary, then when control display lamp 13 carried out flashing light alarm, control buzzer 14 carried out audible alarm; If be three grades, then when control display lamp 13 carries out flashing light alarm and control buzzer 14 carrying out audible alarm, further send distress signal to service centre.

In addition, also can further comprise two assignment keys on the cardioelectric monitor terminal body, i.e. first assignment key 15 and second assignment key 16, both all link to each other with central control unit 21; Simultaneously, further comprise in the cardioelectric monitor terminal body: the wireless communication unit 24 that links to each other with central control unit 21 (, also can on wireless communication unit 24, further connect an antenna) in order to guarantee communication quality.Preserve first assignment key 15 and second assignment key, 16 each self-corresponding communicating number (setting in advance) in the central control unit 21 in advance by the user, when monitoring arbitrary assignment key when being pressed, the communicating number corresponding with this assignment key that is pressed sent to wireless communication unit 24; Wireless communication unit 24 utilizes wireless communication technology to call out the user of this communicating number correspondence.Here the wireless communication technology of being mentioned, can be meant GPRS (general packet radio service) (GPRS) technology, global system for mobile communications (GSM) technology, CDMA (CDMA) technology, 3G (Third Generation) Moblie (3G) technology, or the 4th third-generation mobile communication (4G) technology etc.

In addition, also can further comprise in the cardioelectric monitor terminal body: interconnected clock 25 and record cell 26, and the data processing unit 27 that links to each other with signal gathering unit 22 with central control unit 21.When the cardioelectric monitor starting up of terminal, clock 25 sends the correction request signal to service centre, and the calibration response signal that carries current time information that returns according to service centre, and the time of self is proofreaied and correct; The temporal information that record cell 26 provides according to clock 25, the switching on and shutting down time of record cardioelectric monitor terminal.Data processing unit 27 receives and stores the data from signal gathering unit 22, analyze by the data in the whole process that the cardioelectric monitor terminal is shut down from starting shooting to, the extraction desired parameters is also preserved, and desired parameters comprises: the maximum rhythm of the heart and the minimum rhythm of the heart etc.; Central control unit 21 is behind definite cardioelectric monitor starting up of terminal, the last time of record in the record cell 26 started shooting preserve the maximum rhythm of the heart and the minimum rhythm of the heart in the last shutdown process of starting shooting in switching on and shutting down time in the shutdown process, the data processing unit 27, and three grades of alarm times that the last time of self statistics starts shooting in the shutdown process are shown to the user by LCD display 11.

Except that above-mentioned each ingredient,, also will further include on the cardioelectric monitor terminal body: charging inlet 17, electrode interface 18 and power key 19 with the same in the prior art.Charging inlet 17 links to each other with the lithium battery that is positioned at the cardioelectric monitor terminal body (not shown), charges by 17 pairs of lithium batteries of charging inlet; By electrode interface 18 the cardioelectric monitor terminal is connected to human body; Central control unit 21 is controlled the start or the shutdown of cardioelectric monitor terminal by the operation of monitor user ' to power key 19.

The overall workflow of the terminal of cardioelectric monitor shown in Fig. 1 and 2 is as follows:

The cardioelectric monitor starting up of terminal, the statistical reports demonstrating on LCD display 11 under the control of central control unit 21 in the shutdown process of once starting shooting comprises: switching on and shutting down time, maximum, the minimum rhythm of the heart, and carry out number of times of three grades of warnings etc.Then, enter into next interface, clock 25 sends the correction request signal to service centre, and the calibration response signal that carries current time information that returns according to the service centre that receives, time to self proofreaies and correct, with guarantee self time accurately, and can on LCD display 11, show the current time in real time.The user afterwards, on LCD display 11, shows an amplitude adjusted interface, so that need regulate to the amplitude of ecg wave form figure shown on the LCD display etc. by self.In actual applications, the actual execution time of above-mentioned several steps is very short.

Afterwards, can start normal cardioelectric monitor function: the rhythm of the heart and the ecg-r wave of signal gathering unit 22 real-time monitor user ', and the data that monitor are sent to central control unit 21 and data processing unit 27; Central control unit 21 is shown to the user according to the Data Control LCD display 11 that receives in real time with user's the rhythm of the heart and ecg wave form figure etc., how to control it and is shown as prior art, repeats no more; 27 pairs of data that receive of data processing unit are stored and are analyzed, and the parameters such as the minimum and maximum rhythm of the heart that extract the user are preserved.Need to prove, in actual applications, the data that data processing unit 27 can be not shut down from starting shooting in the whole process to the cardioelectric monitor terminal are all stored, but only store a period of time, such as the data in 3 minutes, but can carry out real-time update to the data of storage, guarantee that promptly the data of being stored are always the data in nearest 3 minutes.Simultaneously, central control unit 21 is after the data that receive from signal gathering unit 22, determine whether in real time and need report to the police according to preset rule (such as the rhythm of the heart less than predetermined value), if desired, determine that further alarm level is one-level, secondary or three grades; If be one-level, then only control display lamp 13 and carry out flashing light alarm; If be secondary, then when control display lamp 13 carried out flashing light alarm, control buzzer 14 carried out audible alarm; If be three grades, then when control display lamp 13 carries out flashing light alarm and control buzzer 14 carrying out audible alarm, further send distress signal to service centre.In practical application, this distress signal can be to comprise the rhythm of the heart of user in nearest 3 minutes and the signal of ecg-r wave data, and service centre can determine the user and goes wrong according to receiving data, and then takes the measure of succouring accordingly.

In addition, central control unit 21 in real time monitor user ' at the operation of function key 12, first assignment key 15 and second assignment key 16.Such as, supress function key 12 if monitor the user, can determine that so then the user need inquire about the positional information at own current place, so central control unit 21 notice positioning units 23 are carried out positioning function; After positioning unit 23 receives notification message from central control unit 21, send Location Request to service centre, and receive the location response information that carries the current position of user that service centre returns, extract the current position of user and send to central control unit 21; Central control unit 21 control LCD displays 11 are shown to the user with the current position of user.If central control unit 21 monitors the user and supresses first assignment key 15 or second assignment key 16, can determine that so then the user need call out relatives or friend, the communicating number corresponding with this assignment key that is pressed sent to wireless communication unit 24; Correspondingly, wireless communication unit 24 utilizes wireless communication technology to call out the user of this communicating number correspondence.

In addition, in the scheme described in the utility model, under various abnormal conditions, such as, user's rhythm abnormality, electrode come off, signal of communication is bad or battery electric quantity is crossed under the situation such as low, can be in LCD display 11 enterprising style of writing words promptings, so that intuitively the problem that is occurred is notified to the user.

Have again, behind the cardioelectric monitor starting up of terminal, if a period of time, in 20S, the cardioelectric monitor terminal only is in cardioelectric monitor state (promptly gather and show the rhythm of the heart and ecg-r wave), and carrying out reports to the police waits other function, then can by central control unit 21 temporarily the cardioelectric monitor terminal be set to electricity-saving state, if desired, again it is reverted to normal condition.

In a word, adopt scheme described in the utility model, have following advantage:

1) can like this, succour if desired for the user provides locating information, the user can in time notify salvor oneself current position, makes things convenient for them to arrive in the spot as early as possible.

2) can produce warning automatically, make things convenient for the user in time to understand oneself state.

3) can carry out remote call-in, so that the user in time relates to distance relatives or friend far away.

In sum, more than be preferred embodiment of the present utility model only, be not to be used to limit protection domain of the present utility model.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. a cardioelectric monitor terminal is characterized in that, comprising: cardioelectric monitor terminal body and be positioned at LCDs and function key on the described cardioelectric monitor terminal body; Comprise in the described cardioelectric monitor terminal body: central control unit, signal acquisition process unit and positioning unit; Described central control unit links to each other respectively with described function key, LCDs, signal gathering unit and positioning unit;

The rhythm of the heart and the ecg-r wave of the real-time monitor user ' of described signal gathering unit, and give described central control unit with the transfer of data that monitors; Described central control unit is shown to the user according to the described LCDs of the Data Control that receives in real time with the rhythm of the heart and ecg wave form figure;

Simultaneously, after described central control unit monitors the operation of user at described function key, notify described positioning unit to carry out positioning function; Described positioning unit receives the notification message from described central control unit, service centre to described cardioelectric monitor terminal sends Location Request, and receive the location response information that carries the current position of user information that described service centre returns, extract the current position of user, send to described central control unit; Described central control unit is controlled described LCDs the current position of described user is shown to the user.

2. cardioelectric monitor terminal according to claim 1 is characterized in that, further comprises on the described cardioelectric monitor terminal body: the display lamp and the buzzer that link to each other with described central control unit.

3. cardioelectric monitor terminal according to claim 1 is characterized in that, further comprises on the described cardioelectric monitor terminal body: two assignment keys that link to each other with described central control unit; Further comprise in the described cardioelectric monitor terminal body: the wireless communication unit that links to each other with described central control unit;

Preserve the communicating number of each assignment key correspondence in the described central control unit, when monitoring the user, the communicating number corresponding with this assignment key that is pressed sent to described wireless communication unit at the operation of arbitrary assignment key; Described wireless communication unit utilizes wireless communication technology to call out the user of this communicating number correspondence.

4. cardioelectric monitor terminal according to claim 3, it is characterized in that, described wireless communication technology is: general packet radio service gprs technology, global system for mobile communications GSM technology, CDMA CDMA technology, 3G (Third Generation) Moblie 3G technology, or the 4th third-generation mobile communication 4G technology.

5. cardioelectric monitor terminal according to claim 2 is characterized in that, further comprises in the described cardioelectric monitor terminal body: interconnected clock and record cell;

When described cardioelectric monitor starting up of terminal, the described service centre of clockwise sends the correction request signal when described, and the calibration response signal that carries current time information that returns according to described service centre, and the time of self is proofreaied and correct; Described record cell writes down the switching on and shutting down time of described cardioelectric monitor terminal according to the temporal information that described clock provides.

6. cardioelectric monitor terminal according to claim 5 is characterized in that, further comprises in the described cardioelectric monitor terminal body: the data processing unit that links to each other with described signal gathering unit with described central control unit;

Described data processing unit receives and stores the data from described signal gathering unit, by described data are analyzed, extracts desired parameters and also preserves; Described desired parameters comprises: the maximum rhythm of the heart and the minimum rhythm of the heart;

Described central control unit is after determining described cardioelectric monitor starting up of terminal, with the last time of writing down in the described record cell start shooting the maximum rhythm of the heart and the minimum rhythm of the heart in the shutdown process of last time of preserving in the switching on and shutting down time in the shutdown process, the described data processing unit of starting shooting, and three grades of alarm times that the last time of self statistics starts shooting in the shutdown process are shown to the user by described LCDs.

7. according to each described cardioelectric monitor terminal in the claim 1～6, it is characterized in that, further comprise on the described cardioelectric monitor terminal body: charging inlet; Further comprise in the described cardioelectric monitor terminal body: the lithium battery that links to each other with described charging inlet, by described charging inlet described lithium battery is charged, so that being described cardioelectric monitor terminal, described lithium battery powers.

8. according to each described cardioelectric monitor terminal in the claim 1～6, it is characterized in that, further comprise on the described cardioelectric monitor terminal body: electrode interface; By described electrode interface described cardioelectric monitor terminal is connected to human body.

9. according to each described cardioelectric monitor terminal in the claim 1～6, it is characterized in that, further comprise on the described cardioelectric monitor terminal body: power key; Described central control unit monitor user ' is to the operation of described power key, to control described cardioelectric monitor starting up of terminal or shutdown.

10. according to each described cardioelectric monitor terminal in the claim 1～6, it is characterized in that, described central control unit determines in the continuous scheduled time that described cardioelectric monitor terminal is only carried out the cardioelectric monitor function, and described cardioelectric monitor terminal is set to electricity-saving state.

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