CN104605840A - Electrocardiogram machine, dynamic electrocardiograph machine and electrocardiograph monitor integrated device - Google Patents
Electrocardiogram machine, dynamic electrocardiograph machine and electrocardiograph monitor integrated device Download PDFInfo
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- CN104605840A CN104605840A CN201410714331.1A CN201410714331A CN104605840A CN 104605840 A CN104605840 A CN 104605840A CN 201410714331 A CN201410714331 A CN 201410714331A CN 104605840 A CN104605840 A CN 104605840A
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- electrocardiograph
- electrocardiogram
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- ecg
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/24—Detecting, measuring or recording bioelectric or biomagnetic signals of the body or parts thereof
- A61B5/316—Modalities, i.e. specific diagnostic methods
- A61B5/318—Heart-related electrical modalities, e.g. electrocardiography [ECG]
Abstract
The invention discloses an electrocardiogram machine, dynamic electrocardiograph machine and electrocardiograph monitor integrated device and aims at overcoming the defect that electrocardiogram detection and monitoring needs three devices and accordingly inconvenient usage and high purchase cost are caused. The electrocardiogram machine, dynamic electrocardiograph machine and electrocardiograph monitor integrated device comprises an electrocardiograph acquisition box, a PC, a mobile terminal and a remote server. The application programs in the PC and the mobile terminal are provided with functional management interfaces of an electrocardiogram machine, a dynamic electrocardiograph machine and an electrocardiograph monitor, and a user can uses the system as the electrocardiogram machine only by switching a working interface to the interface of the electrocardiogram machine and print an electrocardiogram report through a printing machine. The user can uses the system as the dynamic electrocardiograph machine only by switching the working interface to the interface of the dynamic electrocardiograph machine and read data of A TF card of the electrocardiograph acquisition box to perform dynamic electrocardiograph analysis. The user can uses the system as the electrocardiograph monitor only by switching the working interface to the interface of the electrocardiograph monitor and perform long-time electrocardiograph monitoring and alarming.
Description
Technical field
The present invention relates to a kind of armarium, the armarium of especially a kind of detection and tutorial electrocardio state or device.
Background technology
Current electrocardiograph, dynamic ecg and electrocardiogram monitor belong to different armarium terminals, electrocardiogram monitor does not have the function of electrocardiograph and dynamic ecg, when not in good time by the Patient Detection heart of guarding, need monitoring conducting wire to pull out then to add that electrocardiogram machine lead wire is undertaken analyzing and printing by electrocardiograph, so not only troublesome poeration, and best monitoring opportunity may be missed.Electrocardiograph current equally does not also have the function of dynamic ecg and electrocardiogram monitor.Like this, medical institutions, in order to detect and tutorial electrocardio state, just must be equipped with these three kinds different armarium.
Summary of the invention
The object of the invention is the defect of the above-mentioned prior art overcome, and a kind of collection electrocardiograph is provided, the three-in-one general practice equipment that three kinds of functions of dynamic ecg and electrocardiogram monitor are integrated, medical personnel only need to connect a conducting wire can record ambulatory electrocardiogram continuously, simultaneously also can connect mobile terminal by wireless blue tooth or PC carries out real-time cardiac bioelectricity monitoring and continuous print ecg wave form record, mobile terminal is connected remote server with PC by wireless network or wired internet network, remote server assist mobile terminal and PC can carry out complicated ecg wave form identification and intellectual analysis.Arbitrary period in real-time cardiac bioelectricity monitoring process can carry out ecg analysis and printout by mobile terminal or PC, realizes the function of electrocardiograph.So just overcome and change detecting instrument and change the trouble of conducting wire, avoid the best monitoring opportunity missed, have more ageing, an equipment, when three equipment use, also makes the cost purchasing associated medical devices greatly reduce simultaneously.
In order to realize above-mentioned object, following technical scheme can be adopted: the device integrating electrocardiograph, dynamic ecg and electrocardiogram monitor of this programme comprises:
One electrocardio collecting cassette, this electrocardiogram acquisition box comprises a box body, and this box body comprises the front box body and rear box body that can snap together, and front box body is provided with the HDMI socket that an on & off switch window and can insert conducting wire; One circuit board, an on & off switch and a battery are housed in box body; Control circuit in this circuit board comprises:
One Single-Chip Integration gathers front end, and the input that this Single-Chip Integration gathers front end connects human body by conducting wire, and its outfan connects with the input of following single-chip microcomputer; This Single-Chip Integration gathers front end and carries out the collection of human biological electricity, amplification and analog digital conversion;
One single-chip microcomputer, the outfan of this single-chip microcomputer connects with a TF card and bluetooth 4.0 chip respectively; TF card stores the human body electrocardio data that Single-Chip Integration gathers front-end collection; Bluetooth 4.0 chip carries out the transmission of heart real time data by bluetooth; The operation of the control circuit in Single-chip Controlling electrocardiogram acquisition box; Also comprise in addition,
One PC; This PC realizes the reception of heart real time data, display, prints and stores, and remote server is issued in electrocardiogram (ECG) data packing;
One mobile terminal, this mobile terminal is smart mobile phone or panel computer; It also can realize the reception of heart real time data, display, prints and stores, and remote server is issued in electrocardiogram (ECG) data packing;
One remote server, this remote server is connected with PC signal by the Internet, and it is connected with mobile terminal signal by 2G/3G/4G/Wifi; This remote server carries out complicated ecg wave form identification and intellectual analysis, and identification and analysis result are sent back to PC or mobile terminal;
Above-mentioned PC, remote server and mobile terminal are programmed to above-mentioned functions respectively and are operated; Further,
Application program in PC and mobile terminal has electrocardiograph, dynamic ecg and electrocardiogram monitor three kinds of function management interfaces concurrently, user only needs working interface to be cut electrocardiograph interface and this system can be used as electrocardiograph, can print electrocardiogram report by printer; Working interface is cut dynamic ecg interface and this system can be used as dynamic ecg by user, and the data that can read the TF card of electrocardiogram acquisition box carry out dynamic ECG analysis; Working interface is cut electrocardiogram monitor interface and this system can be used as electrocardiogram monitor by user, can carry out long cardiac monitoring and report to the police using.
Further, above-mentioned Single-Chip Integration gathers the preferred ADS129X family chip in front end; The nano family chip of the preferred new Tang arm cotex-m0 kernel of described single-chip microcomputer.
Further, the ThinkServer server catalyst Catalyst that above-mentioned remote server is preferably associated.
In addition, exemplary integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the application program in mobile terminal according to of the present invention one, it is characterized in that described program makes it perform following function:
Program starts rear wait user selection interface, if user selects electrocardiograph, enters electrocardiograph interface, if user selects dynamic ecg, enters dynamic ecg interface, if user selects electrocardiogram monitor, enters electrocardiogram monitor interface.
In addition, exemplary integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the electrocardiograph program in mobile terminal according to of the present invention one, it is characterized in that described program makes it perform following function:
Bluetooth is opened after program starts, if unsuccessful, reopen bluetooth, if success, shows the waveform arrived by Bluetooth receptions, if do not start to gather, display waveform always, if start to gather, etc. end to be collected, after collection terminates, remote server is issued in image data packing, wait for that remote server returns analysis result, then generate report according to analysis result, then printed report, storage report, then terminates.
In addition, exemplary integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the dynamic ecg program in mobile terminal according to of the present invention one, it is characterized in that described program makes it perform following function:
Bluetooth is opened after program starts, if unsuccessful, reopen bluetooth, if success, shows the waveform arrived by Bluetooth receptions, if do not start to gather, display waveform always, then gather the dynamic electrocardiogram (ECG) data of 24 hours, after collection terminates, remote server is issued in image data packing, wait for that remote server returns analysis result, then generate report according to analysis result, then printed report, storage report, then terminates.
In addition, exemplary integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the electrocardiogram monitor application program in mobile terminal according to of the present invention one, it is characterized in that described program makes it perform following function:
Open bluetooth after program starts, if unsuccessful, reopen bluetooth, if success, show the waveform arrived by Bluetooth receptions, if do not start to gather, display waveform always, then calculate heart rate, if heart rate transfinites, report to the police, if do not transfinited, continue display waveform and calculate heart rate.
In addition, according to an exemplary remote server application program integrated in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor of the present invention, it is characterized in that described program makes it perform following function:
Receive the data that PC or mobile terminal are sent after program starts always, then R peak value is looked for according to the data received, do not find and then continue to receive data, find, look for other feature point value according to R peak value again, then make analysis result according to feature point value, then analysis result is sent to PC or mobile terminal.
The invention has the beneficial effects as follows:
Set of device of the present invention just can realize electrocardiograph, dynamic ecg and electrocardiogram monitor three kinds of functions, improve the utilization ratio of product, a product is when three products uses, reduce equipment purchase cost, in cardioelectric monitor process, any time just can print electrocardiograph report without the need to more exchange device, eliminate the trouble of more exchange device, also improve the real-time of cardioelectric monitor simultaneously.
Being convenient to make the present invention understand with more clear, below by drawings and Examples, it being described further.
Accompanying drawing explanation
Fig. 1 is the apparatus structure block diagram of the embodiment of the present invention.
Fig. 2 a is the structural upright schematic diagram of electrocardio collecting cassette in the embodiment of the present invention; Fig. 2 b is the decomposing schematic representation of the parts in Fig. 2 a; Fig. 2 c is the control circuit block diagram of the circuit board in Fig. 2 b.
Fig. 3 is the application program flow chart in the embodiment of the present invention in PC and mobile terminal.
Fig. 4 is the program flow diagram in PC and mobile terminal electrocardiograph
Fig. 5 is the dynamic ecg program flow diagram in the embodiment of the present invention in PC and mobile terminal.
Fig. 6 is the electrocardiogram monitor application program flow chart in the embodiment of the present invention in PC and mobile terminal.
Fig. 7 is the application program flow chart in embodiment of the present invention remote server.
Fig. 8 is the schematic diagram of ecg wave form.
Detailed description of the invention
Embodiment, referring to Fig. 1 mono-Fig. 7.The device integrating electrocardiograph, dynamic ecg and electrocardiogram monitor of the present embodiment comprises:
One electrocardio collecting cassette 10 (see Fig. 2 a mono-Fig. 2 c), this electrocardiogram acquisition box 10 comprises a box body, this box body comprises the front box body 11 and rear box body 15 that can snap together, and front box body 11 is provided with the HDMI socket 112 that an on & off switch window 111 and can insert conducting wire; One circuit board 13, on & off switch 12 and a battery 14 is housed in box body; Control circuit in this circuit board 13 comprises:
One Single-Chip Integration gathers front end 131, and the input that this Single-Chip Integration gathers front end 131 connects human body by conducting wire (not shown), and its outfan connects with the input of following single-chip microcomputer 132; This Single-Chip Integration gathers front end 131 and carries out the collection of human biological electricity, amplification and analog digital conversion;
One single-chip microcomputer 132, the outfan of this single-chip microcomputer 132 connects with a TF card 134 and bluetooth 4.0 chip 133 respectively; TF card 134 stores the human body electrocardio data that Single-Chip Integration gathers front end 131 collection; Bluetooth 4.0 chip 133 carries out the transmission of heart real time data by bluetooth; Single-chip microcomputer 132 controls the operation of the control circuit in electrocardiogram acquisition box; On & off switch 12 in Fig. 2 a and Fig. 2 b can be outstanding through the on & off switch window 111 on front box body 11, and handled easily person presses; The HDMI socket 112 that front box body 11 is arranged can connect conducting wire, and this conducting wire may extend into the positions such as the heart of human body; HDMI socket is (English: High Definition Multimedia Interface, HDMI) be a kind of HDMI, namely be a kind of digitized video/audio interface technology, be the tailored version digital interface of applicable image transmission, it can transmit audio frequency and video-audio signal simultaneously.Also comprise in addition,
One PC 20; This PC I 20 realizes the reception of heart real time data, display, prints and stores, and remote server 40 is issued in electrocardiogram (ECG) data packing;
One mobile terminal 30, this mobile terminal 30 is smart mobile phone or panel computer; It also can realize the reception of heart real time data, display, prints and stores, and remote server 40 is issued in electrocardiogram (ECG) data packing;
One remote server 40, this remote server 40 is connected with PC 20 signal by the Internet, and it is connected with mobile terminal 30 signal by 2G/3G/4G/Wifi; This remote server 40 carries out complicated ecg wave form identification and intellectual analysis, and identification and analysis result are sent back to PC 20 or mobile terminal 30;
Above-mentioned PC 20, remote server 40 and mobile terminal 30 are programmed to above-mentioned functions respectively and are operated; Further,
Application program in PC 20 and mobile terminal 30 has electrocardiograph, dynamic ecg and electrocardiogram monitor three kinds of function management interfaces concurrently, user only needs working interface to be cut electrocardiograph interface and this system can be used as electrocardiograph, can print electrocardiogram report by printer; Working interface is cut dynamic ecg interface and this system can be used as dynamic ecg by user, and the data that can read the TF card 134 of electrocardiogram acquisition box 10 carry out dynamic ECG analysis; Working interface is cut electrocardiogram monitor interface and this system can be used as electrocardiogram monitor by user, can carry out long cardiac monitoring and report to the police using.
Above-mentioned Single-Chip Integration gathers the preferred ADS129X family chip in front end; The nano family chip of the preferred new Tang arm cotex-m0 kernel of described single-chip microcomputer.
The ThinkServer server catalyst Catalyst that above-mentioned remote server is preferably associated.
Fig. 3 shows the flow process of the PC in above-described embodiment and the application program in mobile terminal, and this program makes it perform following function:
Program starts rear wait user selection interface (the step S1 namely in Fig. 3), if user selects electrocardiograph (the step S2-3 namely in Fig. 3), then enters electrocardiograph interface (the step S3-3 namely in Fig. 3); If user selects dynamic ecg (the step S2-2 namely in Fig. 3), then enter dynamic ecg interface (the step S3-2 namely in Fig. 3); If user selects electrocardiogram monitor (the step S2-1 namely in Fig. 3), then enter electrocardiogram monitor interface (the step S3-1 namely in Fig. 3).
Fig. 4 shows the flow process of the PC in above-described embodiment and the electrocardiograph program in mobile terminal, and this program makes it perform following function:
Bluetooth (the step R1 namely in Fig. 4) is opened after program starts, if unsuccessful, reopen bluetooth (the step R2 namely in Fig. 4), if success, shows the waveform (the step R3 namely in Fig. 4) arrived by Bluetooth receptions, if do not start to gather, display waveform (the step R4 namely in Fig. 4) always, if start to gather, etc. end to be collected (the step R5 namely in Fig. 4), after collection terminates, image data packing is issued remote server (the step R7 namely in Fig. 4) by (the step R6 namely in Fig. 4), wait for that remote server returns analysis result (the step R8 namely in Fig. 4), then report (the step R9 namely in Fig. 4) is generated according to analysis result, then printed report (the step R10 namely in Fig. 4), storage report (the step R11 namely in Fig. 4), then terminate (the step R12 namely in Fig. 4).
Fig. 5 shows the flow process of the PC I in above-described embodiment and the dynamic ecg program in mobile terminal, and this program makes it perform following function:
Bluetooth (the step P1 namely in Fig. 5) is opened after program starts, if unsuccessful, reopen bluetooth (the step P2 namely in Fig. 5), if success, shows the waveform (the step P3 namely in Fig. 5) arrived by Bluetooth receptions, if do not start to gather, display waveform always, then the dynamic electrocardiogram (ECG) data (the step P4 namely in Fig. 5) of 24 hours is gathered, after collection terminates, remote server (the step P5 namely in Fig. 5) is issued in image data packing, wait for that remote server returns analysis result (the step P6 namely in Fig. 5), then report (the step P7 namely in Fig. 5) is generated according to analysis result, then printed report (the step P8 namely in Fig. 5), storage report (the step P9 namely in Fig. 5), then terminate (the step P10 namely in Fig. 5).
Fig. 6 shows the flow process of the PC I in above-described embodiment and the electrocardiogram monitor application program in mobile terminal, and this program makes it perform following function:
Bluetooth (the step Q1 namely in Fig. 6) is opened after program starts, if unsuccessful, reopen bluetooth (the step Q2 namely in Fig. 6), if success, shows the waveform (the step Q3 namely in Fig. 6) arrived by Bluetooth receptions, if do not start to gather, display waveform always, then heart rate (the step Q4 namely in Fig. 6) is calculated, if heart rate transfinites (the step Q5 namely in Fig. 6), report to the police (the step Q6 namely in Fig. 6), if do not transfinited, continue display waveform and calculate heart rate.
Fig. 7 shows the flow process of the remote server application program in above-described embodiment, and this program makes it perform following function:
Receive the data (the step T1 namely in Fig. 7) that PC or mobile terminal are sent after program starts always, then R peak value (the step T2 namely in Fig. 7) is looked for according to the data received, do not find and then continue to receive data, find, look for other feature point value (the step T3 namely in Fig. 7) according to R peak value again, then make analysis result (the step T4 namely in Fig. 7) according to feature point value, then analysis result is sent to PC or mobile terminal (the step T5 namely in Fig. 7).
As shown in Figure 8, namely above-mentioned R peak value is the abscissa value of the R point in figure, and other feature point value is as the abscissa value of the P ripple starting point in figure, T ripple starting point, U ripple starting point.
These are only the preferred embodiment of the present invention, but it does not limit practical range of the present invention, the equivalent variations namely not departing from claim of the present invention and done and modification, must belong to the protection domain of the present invention.
Claims (8)
1. integrate a device for electrocardiograph, dynamic ecg and electrocardiogram monitor, it is characterized in that comprising:
One electrocardio collecting cassette, this electrocardiogram acquisition box comprises a box body, and this box body comprises the front box body and rear box body that can snap together, and front box body is provided with the HDMI socket that an on & off switch window and can insert conducting wire; One circuit board, an on & off switch and a battery are housed in box body; Control circuit in this circuit board comprises:
One Single-Chip Integration gathers front end, and the input that this Single-Chip Integration gathers front end connects human body by conducting wire, and its outfan connects with the input of following single-chip microcomputer; This Single-Chip Integration gathers front end and carries out the collection of human biological electricity, amplification and analog digital conversion;
One single-chip microcomputer, the outfan of this single-chip microcomputer connects with a TF card and bluetooth 4.0 chip respectively; TF card stores the human body electrocardio data that Single-Chip Integration gathers front-end collection; Bluetooth 4.0 chip realizes the wireless transmission of electrocardiogram (ECG) data; The operation of the control circuit in Single-chip Controlling electrocardiogram acquisition box; Also comprise in addition,
One PC; This PC realizes the reception of heart real time data, display, prints and stores, and remote server is issued in electrocardiogram (ECG) data packing;
One mobile terminal, this mobile terminal is smart mobile phone or panel computer; It also can realize the reception of heart real time data, display, prints and stores, and remote server is issued in electrocardiogram (ECG) data packing;
One remote server, this remote server is connected with PC signal by the Internet, and it is connected with mobile terminal signal by 2G/3G/4G/Wifi; This remote server carries out complicated ecg wave form identification and intellectual analysis, and identification and analysis result are sent back to PC or mobile terminal;
Above-mentioned PC, remote server and mobile terminal are programmed to above-mentioned functions respectively and are operated; Further,
Application program in PC and mobile terminal has electrocardiograph, dynamic ecg and electrocardiogram monitor three kinds of function management interfaces concurrently, user only needs working interface to be cut electrocardiograph interface and this system can be used as electrocardiograph, can print electrocardiogram report by printer; Working interface is cut dynamic ecg interface and this system can be used as dynamic ecg by user, and the data that can read the TF card of electrocardiogram acquisition box carry out dynamic ECG analysis; Working interface is cut electrocardiogram monitor interface and this system can be used as electrocardiogram monitor by user, can carry out long cardiac monitoring and report to the police using.
2. the device integrating electrocardiograph, dynamic ecg and electrocardiogram monitor according to claim 1, is characterized in that described Single-Chip Integration gathers the preferred ADS129X family chip in front end; The nano family chip of the preferred new Tang arm cotex-m0 kernel of described single-chip microcomputer.
3. the device integrating electrocardiograph, dynamic ecg and electrocardiogram monitor according to claim 1 and 2, is characterized in that the ThinkServer server catalyst Catalyst that described remote server is preferably associated.
4. integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the application program in mobile terminal, it is characterized in that described program makes it perform following function:
Program starts rear wait user selection interface, if user selects electrocardiograph, enters electrocardiograph interface, if user selects dynamic ecg, enters dynamic ecg interface, if user selects electrocardiogram monitor, enters electrocardiogram monitor interface.
5. integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the electrocardiograph program in mobile terminal, it is characterized in that described program makes it perform following function:
Bluetooth is opened after program starts, if unsuccessful, reopen bluetooth, if success, shows the waveform arrived by Bluetooth receptions, if do not start to gather, display waveform always, if start to gather, etc. end to be collected, after collection terminates, remote server is issued in image data packing, wait for that remote server returns analysis result, then generate report according to analysis result, then printed report, storage report, then terminates.
6. integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the dynamic ecg program in mobile terminal, it is characterized in that described program makes it perform following function:
Bluetooth is opened after program starts, if unsuccessful, reopen bluetooth, if success, shows the waveform arrived by Bluetooth receptions, if do not start to gather, display waveform always, then gather the dynamic electrocardiogram (ECG) data of 24 hours, after collection terminates, remote server is issued in image data packing, wait for that remote server returns analysis result, then generate report according to analysis result, then printed report, storage report, then terminates.
7. integrate the PC in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor and the electrocardiogram monitor application program in mobile terminal, it is characterized in that described program makes it perform following function:
Open bluetooth after program starts, if unsuccessful, reopen bluetooth, if success, show the waveform arrived by Bluetooth receptions, if do not start to gather, display waveform always, then calculate heart rate, if heart rate transfinites, report to the police, if do not transfinited, continue display waveform and calculate heart rate.
8. integrate the remote server application program in the device of electrocardiograph, dynamic ecg and electrocardiogram monitor, it is characterized in that described program makes it perform following function:
Receive the data that PC or mobile terminal are sent after program starts always, then R peak value is looked for according to the data received, do not find and then continue to receive data, find, look for other feature point value according to R peak value again, then make analysis result according to feature point value, then analysis result is sent to PC or mobile terminal.
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