CN205144552U - Electrocardio detecting system based on wisdom cloud - Google Patents

Abstract

The utility model provides an electrocardio detecting system based on wisdom cloud belongs to medical instrument technical field. Electrocardio detecting system includes workstation, detector and electrocardio appearance, and wherein, the workstation includes first processor and first communication subsystem and/or card connector, the detector includes second processor, second communication subsystem and/or card connecting seat and electrocardio detection interface, and the electrocardio appearance is used for acquireing by the person's of examining electrocardio data and detects the interface through the electrocardio and give the detector with data transfer. The utility model provides an electrocardio detecting system based on wisdom cloud can conveniently carry out electromechanics and connect to and be convenient for preserve data so that carry out data analysis and contrast.

Description

Based on the cardiac electricity detecting system of smart cloud

Technical field

This utility model relates to technical field of medical instruments, particularly relates to a kind of cardiac electricity detecting system, can detect electrocardio and automatically be saved in memorizer and be uploaded to background server to preserve case archives.

Background technology

Everyone is being concerned about the health of oneself, and constantly expends the health that financial resources administer and maintain oneself.Traditional personal health management is sick often, seeks medical advice, but ignores the health supervision done at ordinary times before entering hospital.Along with economic development, people create the demand of carrying out health supervision at ordinary times, but suffer from and do not have the simple and easy to do health monitoring tool of time at ordinary times and method of service.So just make people can not carry out effective healthy protect at ordinary times, to avoid disease; Once after there is disease, the historical data of health Parameters variation before being admitted to hospital can not be provided again, thus be delayed doctor's diagnosis and treatment.

Existing cardiac signal detection device mainly comprises: the large-scale plant used by doctor in the medical institutions such as hospital, and it possesses: have the high level operations function for analyzing ECG data, such as desk-top computer; Be connected with this accountant respectively by cable, such as 12 electrodes; For the console indicator unit monitored electrocardiographic wave etc.; And print the printing equipment etc. of electrocardiographic wave etc.Then, doctor etc. install electrode to the extremity of the detected person lied on a bed and chest, operate above-mentioned accountant.Thus, this cardiac signal detection device detects the electrocardiosignal of detected person, carries out accurate analysis, generate for directly useful specialized information such as the diagnosis, treatment etc. of arrhythmia or angina pectoris etc. ECG data.

For the ease of using in the family, also there is the small-sized mancarried device used by ordinary people in general family, but electrocardiogram (ECG) data needs to be analyzed by professional, so need to preserve data or be sent to professional and sentence just professional's analysis to judge the state of an illness exactly.

Summary of the invention

For overcoming the shortcoming existed in prior art, goal of the invention of the present utility model is to provide a kind of cardiac electricity detecting system, and it can carry out mechatronics easily, so that detect and data observation.

For realizing above-mentioned utility model object, this utility model provides a kind of cardiac electricity detecting system, and it comprises work station, detector and electrocardiogram equipment, and wherein, work station comprises first processor and the first communication subsystem and/or links joint; Detector comprises the second processor, second communication subsystem and/or card connecting base and ECG detecting interface, and electrocardiogram equipment is for obtaining the electrocardiogram (ECG) data of examinee and sending data to detector by ECG detecting interface.

Preferably, work station comprises the first display, and the electrocardiogram (ECG) data obtained shows on the first display by described first processor.

Preferably, work station also comprises first memory, and the electrocardiogram (ECG) data obtained stores in a first memory by first processor.

Preferably, work station comprises a SIM interface circuit and the first sim card slot, and described first sim card slot is used for arranging the first SIM, and described first SIM is connected with first processor by a SIM interface circuit.

Preferably, the mode that described first processor takes out the electrocardiogram (ECG) data that obtains in wantonly two time periods of measurand temporally ecg curve from first memory or background server is presented on the subregion of the first display, and the mode of taking out the electrocardiogram (ECG) data that obtains in other arbitrarily two time periods of measurand temporally ecg curve from first memory or background server is presented on another part region to contrast.

Preferably, detector comprises second display, and the electrocardiogram (ECG) data obtained shows on the second display by described second processor.

Preferably, detector also comprises second memory, and the electrocardiogram (ECG) data of acquisition is stored in second memory by the second processor.

Preferably, detector comprises the 2nd SIM interface circuit and the second sim card slot, and described second sim card slot is used for arranging the second SIM, and described second SIM is connected with the second processor by the 2nd SIM interface circuit.

Preferably, described second processor takes out the data in wantonly two time periods of measurand with the mode display of time ecg curve on the second display from second memory, work station or background server.

Preferably, the card connecting base of detector and work station link joint under the effect of buckle structure mechatronics to carry out data transmission.

Compared with prior art, this utility model provides cardiac electricity detecting system when there being network (comprising the network and cable network that provide broadband service), can be communicated by network, mechatronics can be carried out to transfer data to work station or background server by the joint that links of card connecting base and work station when there is no network, so, it is smaller that the display screen of detector can do, be easy to carry, when electrocardio result clearly observed by needs or carry out electrocardiogram (ECG) data analysis, detector is inserted work station, utilize the giant-screen of work station by testing result, or time ecg curve clearly illustrates out.

Accompanying drawing explanation

Fig. 1 is the architectural schematic of the electrocardio body examination detection system that this utility model provides;

Fig. 2 is the composition frame chart of the work station that this utility model provides;

Fig. 3 is the composition frame chart of the detector that this utility model provides;

Fig. 4 is the overall schematic of the work station detector buckle structure that this utility model provides;

Fig. 5 is the work station detector buckle structure decomposing schematic representation that this utility model provides;

Fig. 6 is the flow chart setting up detector electrocardio measurement interface that this utility model provides;

Fig. 7 is the flow chart setting up electrocardio measurement interface, engineering station that this utility model provides.

Detailed description of the invention

Be described further with regard to the technical solution of the utility model below in conjunction with drawings and the specific embodiments.Should be appreciated that specific embodiment described herein only in order to explain this utility model, and be not used in restriction this utility model.The realization of this utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Fig. 1 is the architectural schematic that this utility model provides cardiac electricity detecting system.As shown in Figure 1, cardiac electricity detecting system comprise connected by network cloud management system, two-dimensional code data server (not shown), health account server, authentication server, multiple work station (work station A, work station B, work station C ...), multiple detector, (hospital 1 of hospital, hospital 2, hospital m) and national CDC, wherein, described network is used in work station, detector, hospital, communicates to connect between national CDC and various server.Hospital, national CDC all can have terminal, the cardiac electricity detecting system that hospital can utilize this utility model to provide detects measurand, the cardiac electricity detecting system that the single authorized user without medical qualification also can utilize this utility model to provide detects measurand, and the user of hospital, mandate and national CDC all can have access to the data in health account server.Country CDC carries out statistical analysis to provide public's early warning information by the data had access in health account server to a certain slow disease.Described network comprise utilizing move communication system as Wi-Fi, Wi-Max, 3G, 4G, UMTS(General Mobile), ISDN(ISDN), DSL(digital subscriber line), ATM(asynchronous transfer mode), 802.11, Ethernet, the technology such as InfinBand and PCIExpressAdvancedSwitching connection.Application protocol comprises TCP/IP(transmission control protocol/procotol in a network), MPLS(multiprotocol label switching), UDP(UDP), HTTP(HTML (Hypertext Markup Language)), the mono-Mail Transfer protocol of SMTP(), FTP(file transfer protocol (FTP)), LDAP(Light Directory Access Protocol), CDMA(CDMA), WCDMA(WCDMA), GSM(global system for mobile communications), HSDPA(high-speed downlink packet access) etc.The form exchanging data in a network comprises HTML, XML etc.

Cloud management system is used for managing network; Described two-dimensional code data server is for depositing national authentication central authority to the two-dimensional code data of various manufacturer.Health account server, for depositing the file data of measurand, comprises name, sex, date of birth, identification card number, testing location and each test record etc.Identity server is for storing the identity information of described work station, detector; Described work station is used for the data of detector being carried out processing and sending two-dimensional code data server, health account server or authentication server etc. to by network, it also can have access to the data of each server, and visit device and client application etc. have been put in its installation.

Fig. 2 is the composition frame chart of the work station that this utility model provides.As shown in Figure 1, work station comprises communication subsystem, primary processor 41, application subsystem, links joint 35 and link joint 36, wherein, link joint 35 for the first detector mechatronics, so that the data detected of the first detector are transferred to primary processor 41; Link joint 36 for the second detector mechatronics, be transferred to primary processor 41 with the data detected by the second detector.Application subsystem comprises display driver 46, display 48, touch screen 47, keyboard (not shown), bluetooth module 42, WLAN module 43, WIFI module 44, SDRAM30, NANDFLAH31, USB interface 34, network adapter 37 and SIM interface 32, wherein, the data that first detector and the second detector provide process by primary processor, subregion and another part region of display screen is presented at respectively by driver 46, preferred left area and right half area, touch screen 47 is for inputting data and instruction; Keyboard is for inputting data and instruction; Bluetooth module 42, WLAN module 43 communicate with detector, background server and/or cloud management system through respective application network respectively by antenna with WIFI module 44; USB interface 34 is for being connected with background server by USB line; Network adapter 37 is for being connected with detector, background server and/or cloud management system by network; SIM interface 32 is for inserting SIM.SDRAM30 is used for fetch program and data from NANDFLAH31 and is kept in this SDRAM30 by this program and data temporarily; NANDFLAH31 is for storing application program and data.Communication subsystem comprises antenna, RF transceiver 38, analogue baseband processors 39 and digital baseband processor 40, when transmitting, the data that primary processor provides by digital baseband processor 40 are carried out source coding and channel coding and are formed digital baseband signal, digital baseband signal is modulated on high frequency by analog processor, RF transceiver is used for being amplified by high-frequency signal, to be transmitted into space by antenna 38; During the collection of letters, spatial electromagnetic ripple is converted to high frequency small-signal by antenna 38; High frequency small-signal amplifies by RF transceiver, analogue baseband processors demodulates digital baseband signal from high-frequency signal, digital baseband transmission system device takes out data and is supplied to primary processor from digital baseband signal, that is, work station is needed the data that transfer out by Internet Transmission to detector, background server and/or cloud management system by communication subsystem according to the instruction of user.

Fig. 3 is the composition frame chart of the detector that this utility model provides.As shown in Figure 3, described detector comprises card connecting base 52, processor 51, detector application subsystem and detection subsystem, and wherein, card connecting base 52 is for being connected with workstation card union joint electromechanics through buckle structure; Detector application subsystem comprises utilizing camera interface, photographic head 66, identity card identification module 59, touch display screen 53, multiple key switch 5, SDRAM56, NANDFLASH57 and clock circuit, wherein, photographic head 66 is for obtaining various image information, it sends image information to processor 51 through utilizing camera interface 58, utilize photographic head 66 to take the image of measurand to set up case archives in this utility model, photographic head also can be utilized to obtain the Quick Response Code of various reagent and/or the image of test zone to carry out graphical analysis further; Identity card identification module 59 is for obtaining the ID card information of detected object for setting up case archives, and identity card identification module can be RFID module.Touch display screen 53 for inputting instruction and data, also for showing image; Clock circuit 54 is for providing clock signal to processor.Key switch, for performing various switch motion, as switching on and shutting down, selection etc.; SDRAM56 is used for from NANDFLASH, read application program and data, and NANDFLASH is for storing application program and data.

Described detection subsystem comprises ECG detecting interface 61, and described ECG detecting interface is used for being connected with electrocardioscanner, sends processor 51 to the electrocardiogram (ECG) data detected by electrocardioscanner.Processor 51 pairs of electrocardiogram (ECG) datas carry out process and can show on touch display screen, and are sent to work station by card connecting base 52.

The detector that this utility model provides also comprises bluetooth module 66, WLAN module 68, WIFI module 67, network adapter 73, SIM interface 72 and communication subsystem 70, and bluetooth module 66, WLAN module 68 communicate with background server (comprising health account server, case server etc.) and/or cloud management system etc. with work station through respective network respectively by antenna with WIFI module 67; Network adapter 73 is for being connected with work station, background server and/or cloud management system by network; SIM interface 72 is for inserting SIM.Communication subsystem comprises antenna, RF transceiver, analogue baseband processors and digital baseband processor, when transmitting, the data that processor 51 provides by digital baseband processor 51 are carried out source coding and channel coding and are formed digital baseband signal, digital baseband signal is modulated on high frequency by analog processor, RF transceiver is used for being amplified by high-frequency signal, to be transmitted into space by antenna 71; During the collection of letters, with antenna 71, spatial electromagnetic ripple is converted to high frequency small-signal; High frequency small-signal amplifies by RF transceiver, analogue baseband processors demodulates digital baseband signal from high-frequency signal, digital baseband transmission system device takes out data and is supplied to primary processor from digital baseband signal, that is, detector is needed the data that transfer out by Internet Transmission to work station, background server and/or cloud management system by communication subsystem according to the instruction of user.

The work station that this utility model provides is provided with shell, the side of shell is provided with at least one opening, preferably two, work station detector module card buckle structure is provided with in each opening, to make the card connecting base mechatronics linking joint and detector of work station, thus facilitate the data on detector to be transferred to work station, and show on the display of work station.

Fig. 4 is the overall schematic of the work station detector module card buckle structure that this utility model provides.Fig. 5 is the work station detector module card buckle structure decomposing schematic representation that this utility model provides.As illustrated in figures 4-5, the work station detector module card buckle structure that this utility model provides comprises detector slot, detent mechanism and ejecting mechanism, detector is positioned in detector slot by described detent mechanism, described ejecting mechanism is used for detector 11 to eject from detector slot, and the upper surface of the housing of described detector is inclined-plane at least partly and is provided with locating slot.Slot comprises detector slot upper cover 6 and detector slot lower cover 12, detector slot lower cover is the bathtub construction be made up of four faces, it comprises lower panel, the first left panel, the first right panel and first flank plate, first flank plate is inverse-T-shaped, and first left side is provided with three for inserting the support of screw in the outside of plate and the first right panel.Lower panel is provided with ejector pin component slot 17 close to first flank plate place.Detector slot upper cover is the bathtub construction be made up of four faces, and it comprises top panel, the second left panel, the second right panel and second flank plate, and second left side is provided with three for inserting the support of screw in the outside of plate and the second right panel.Top panel is provided with rectangular through-hole, arranges fixed support in rectangular through-hole, and detent mechanism is arranged at fixed support upper end.Support bracket fastened front end is provided with track 24, is provided with groove in track 24.

Ejecting mechanism comprises ejector pin component, ejector pin component comprise push rod 13, first spring 14 and and top board 15, described top board 15 is provided with the first groove 16, the first end of push rod is provided with the second groove vertically, the first end of spring 14 be embedded in the second groove at least partly, second end of spring 14 be embedded in the first groove 16 at least partly, the first end of push rod to be embedded at least partly at least part of space of the first groove 16 and can to move at the first groove 16 under action from the spring 14.

Detent mechanism comprises location-plate 1, spring 2, spring 18, location key seat 3, location key seat 19, alignment pin 4 and alignment pin 20, wherein, location-plate 1 is symmetrically arranged with two grooves, first end face of location key seat 3 is inclined-plane, and be provided with alignment pin 4, second end of location key seat 3 is provided with groove, embed spring 2 in groove at least partially, what the second end of location key seat was embedding enter at least partly at least part of cavity of a groove of location-plate and can move at groove under the effect of spring 2; First end face of location key seat 19 is inclined-plane, and alignment pin 20 is set, second end of location key seat 19 is provided with groove, spring 18 is embedded at least partially, being embedded at least partly in another groove of location-plate and can moving at groove under the effect of spring 18 of one end of location key seat in groove.Location-plate front lower place is provided with flange 21 and flange 22, and flange 21 is identical with the structure of flange 22, and their upper and lower surface is the cambered surface be bent upwards, and front surface is rectangle, and left and right side is " L " shape, after bonding with location-plate or be integrally formed.

Ejecting mechanism also comprises push-rod assembly, described push-rod assembly comprises push rod 8, spring 7 and button 9, wherein, push rod 8 comprises crossbeam and left and right two end arms, crossbeam and left and right two end arms are integrally formed " U " shape, left and right two end arms upper surface be inclined-plane at least partially, left and right two end arms is provided with through chute, and the alignment pin at two ends, localization machine left and right can be each passed through through chute and be embedded in the locating slot on the housing of detector.The mediad of crossbeam is provided with flange 23, flange 23 be provided with below cylinder to embed at least one section of the first end of spring 7, be provided with projection before flange 23 to be inserted in button 9.At least one section of second end of spring 7 is embedded in the groove that fixed support gets on the right track in 24.

During assembling, the first step: be fixed in the above by fixed support in the rectangular opening of plate, makes flange 24 on it forward.Second step, is arranged in the groove of track 24 by one end of spring 7, be arranged on by the other end of spring 7 in the cylinder after push rod flange 23, is enclosed within by button in the projection before flange 23, then fixes being arranged on actively on fixed support by push rod.3rd step, arranges alignment pin 4 by one end of location key seat 3, and the other end embeds 2 springs, and the location key seat embedding spring 2 is embedded in the groove of location-plate; One end of location key seat 19 arranges alignment pin 20, and the other end embeds 18 springs, and the location key seat embedding spring 18 is embedded in another groove of location-plate, then, is arranged on actively on fixed support by detent mechanism.5th step, is arranged in the groove of push rod one end by one end of spring 14, the one end that then push rod be embedded in spring 14 is embedded in 1 groove 16, is then inserted by top board in the groove in treatise lower panel; 6th step, together with being fixed by screws in detector slot upper cover with detector slot.Define work station detector module card buckle structure.

When detector loads work station, detector 11 promotes push rod 13, push rod 13 compresses and ejects spring 14, because ejector pin component 15 position is fixed, after then detector 11 is pushed into certain position, the thimble on joint that links on work station can be connected with the jack on detector card connecting base, just can carry out data transmission.Meanwhile, in the push-on process of detector, alignment pin 4 is lifted, until be inserted into precalculated position, alignment pin 4 and alignment pin 20 fall into locating hole 10 and locating hole 25 respectively, realize the location of detector.

When detector needs to be ejected, Pen-down detection instrument ejects button 9, detector ejects button 9 and drives push rod 8, the inclined-plane of push rod 8 end walls and the inclined-plane of location key seat do relative motion, and the horizontal movement of push rod is converted into the vertical motion of alignment pin, alignment pin is lifted, now detector loses horizontal restraining forces, spring 14 promotes push rod 13, and push rod 13 promotes detector 11, is ejected by detector.

The configurable multiple work station detector buckle structure of a usual work station, described multiple comprise one or two more than, so, a work station can carry out mechatronics with multiple detector, that is, when without any network, also logical quantity of information can be carried out.

Detection subsystem and transmission subsystem can be made to combine easily owing to being provided with work station detector buckle structure in this utility model, to carry out data transmission, can be separated easily again, to carry out the detection of various vital sign easily to measurand, so, the larger display screen of work station can be utilized to observe, the detector of smaller size smaller can be utilized again to carry out sign detection, therefore substantially increase the motility of operation, reliability and visuality.

When the cardiac electricity detecting system utilizing this utility model to provide detects, electrocardiogram equipment is connected to the ECG detecting interface of detector by cable, then the electrode group of electrocardiogram equipment is arranged at the corresponding site of the health of measurand, the rule of operation usually indicated according to the description of electrocardiogram equipment is carried out.Fig. 6 is the flow chart setting up detector electrocardio measurement interface that this utility model provides.As shown in Figure 6, the process setting up detector electrocardio measurement interface comprises:

S01 sets up main menu;

S02 sets up and arranges the tested case archives menu to picture in main menu, points out: the induction zone China second-generation identity card of measurand being positioned over the identity card identification module of detector to user;

S03: the processor of detector receives the identity information of measurand, and the identity information according to measurand compares one by one with the identity information in the case archives stored in NANDFLASH57;

S04 judges: if do not have consistent identity information, set up new case archives, and utilize photographic head to obtain the head portrait of measurand, the head portrait that processor receives measurand joins in the case archives of measurand, then carry out S05: if there is consistent identity information, then take out the case archives of measurand from NANDFLASH57, carry out S05 afterwards;

S05: set up electrocardio and measure interface, and in interface, set up the icon of electrocardio measurement " beginning " and the icon of electrocardio measurement " stopping "; When user presses " beginning " icon in electrocardio measurement interface, electrocardiogram equipment starts the biopotential of the electrode group measuring measurand, processor receives each biopotential and is stored into NANDFLASH57, when user clicks " stopping " image timestamp on interface, electrocardiogram equipment stops measuring, and preprocessor performs electric heart figure composite application, biopotential synthesized electrocardiogram and show on a display screen, calculating electrocardio parameters according to biopotential simultaneously;

S07: measure the icon setting up " transmission " in interface at electrocardio, when electrocardiogram (ECG) data is sent to work station or background server by needs, if there is broadband service network service, be sent to work station or background server by bluetooth module 66, WLAN module 68 and/or WIFI module 67.If there is no broadband service, and have during the operate wireless networks of mobile, telecommunications or UNICOM etc. and be sent to work station or background server by communication subsystem, because user can utilize SIM moving, the operate wireless networks such as telecommunications or UNICOM sets up account, and buy corresponding service, if when broadband services and operate wireless networks all do not have, detector can be inserted into make the card connecting base mechatronics linking joint and detector of work station in the slot of work station, with the electrocardiogram (ECG) data that detector is obtained packing to give work station;

S08: set up statistical analysis icon, statistical analysis icon is associated with Electrocardiographic sub-interfacial phase, the result single of the repetitive measurement of tested object can be presented on the interface of detector by detector in graph form, also can the repetitive measurement result of any number of times of measurand be presented in sub-interface with the form of ecg curve, user's (comprising doctor, family members and measurand etc.) clearly can see electrocardio change and compare with reference value on the interface of detector, thus judges the health of measurand according to electrocardio easily.In the sub-interface of ecg curve, take time as transverse axis, take biopotential as longitudinal axis ecg curve Time Created, and in interface, design the pointer that two are parallel to the longitudinal axis, user can drive pointer to move along transverse axis with finger, position calculation according to two pointers goes out heart rate, and INTERFACE DESIGN like this contributes to the electrocardio situation of change of user to measurand and carries out detailed understanding.

Fig. 7 is the flow chart setting up electrocardio measurement interface, engineering station that this utility model provides.As shown in Figure 7, the process setting up electrocardio measurement interface, engineering station comprises:

Workstation display screen is divided into two interfaces, left and right by S01, arranges main menu in each interface, and main menu comprises electrocardio measurement icon, statistical analysis icon, arranges icon, personal information icon, historical report icon and health data icon etc.;

S02 receiving card union joint, communication module or communication subsystem receive data, on corresponding interface display and protected data to NANDFLASH31

S03: from the identity information of the extracting data measurand of monitoring, the identity information according to measurand compares one by one with the identity information in the case archives stored in NANDFLASH31;

S04 judges: if do not have consistent identity information, information according to the new measurand received is set up new case archives and is kept at NANDFLASH31, then carry out S05: if there is consistent identity information, then from receive extracting data electrocardiogram (ECG) data and join the case archives of original measurand, carry out S05 afterwards;

S05: measure the icon setting up " transmission " in interface at electrocardio, when needs electrocardio measured body be sent to background server time, if there is broadband service network service, be sent to work station or background server by bluetooth module 2, WLAN module 43 and/or WIFI module 44.If there is no broadband service, and have during the operate wireless networks of mobile, telecommunications or UNICOM etc. and be sent to background server by communication subsystem, if when broadband services and operate wireless networks all do not have, USB interface can be connected to background server, to pack with the electrocardiogram (ECG) data obtained by work station to give background server;

S06: set up statistical analysis icon, statistical analysis icon is associated with Electrocardiographic sub-interfacial phase, the result single of the repetitive measurement of tested object can be presented on the interface of detector by work station in graph form, also can the repetitive measurement result of any number of times of measurand be presented in sub-interface with the form of ecg curve, user's (comprising doctor, family members and measurand etc.) clearly can see electrocardio change and compare with reference value on the interface of detector, thus judges the health of measurand according to electrocardio easily.In the sub-interface of ecg curve, take time as transverse axis, take biopotential as longitudinal axis ecg curve Time Created, and in interface, design the pointer that two are parallel to the longitudinal axis, user can drive pointer to move along transverse axis with finger, relative position according to two pointers calculates EGC parameter, and INTERFACE DESIGN like this contributes to the electrocardio situation of change of user to measurand and carries out detailed understanding.

More than be described with reference to the accompanying drawings this utility model, but those of ordinary skill in the art it should be known that description is only for explaining claims.But protection domain of the present utility model is not limited to description.Any those skilled in the art of being familiar with are in the technical scope that this utility model discloses, and the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claims.

Claims (10)

1. a cardiac electricity detecting system, is characterized in that, comprises work station, detector and electrocardiogram equipment, and wherein, work station comprises first processor and the first communication subsystem and/or links joint; Detector comprises the second processor, second communication subsystem and/or card connecting base and ECG detecting interface, and electrocardiogram equipment is for obtaining the electrocardiogram (ECG) data of examinee and sending data to detector by ECG detecting interface.

2. cardiac electricity detecting system according to claim 1, is characterized in that, work station comprises the first display, and the electrocardiogram (ECG) data obtained shows on the first display by described first processor.

3. cardiac electricity detecting system according to claim 2, is characterized in that, work station also comprises first memory, and the electrocardiogram (ECG) data obtained stores in a first memory by first processor.

4. cardiac electricity detecting system according to claim 3, it is characterized in that, work station comprises a SIM interface circuit and the first sim card slot, and described first sim card slot is used for arranging the first SIM, and described first SIM is connected with first processor by a SIM interface circuit.

5. according to the arbitrary described cardiac electricity detecting system of claim 1-4, it is characterized in that, the mode that described first processor takes out the electrocardiogram (ECG) data that obtains in wantonly two time periods of measurand temporally ecg curve from first memory or background server is presented on the subregion of the first display, and the mode of taking out the electrocardiogram (ECG) data that obtains in other arbitrarily two time periods of measurand temporally ecg curve from first memory or background server is presented on another part region to contrast.

6. cardiac electricity detecting system according to claim 1, is characterized in that, detector comprises second display, and the electrocardiogram (ECG) data obtained shows on the second display by described second processor.

7. cardiac electricity detecting system according to claim 6, is characterized in that, detector also comprises second memory, and the electrocardiogram (ECG) data of acquisition is stored in second memory by the second processor.

8. cardiac electricity detecting system according to claim 7, it is characterized in that, detector comprises the 2nd SIM interface circuit and the second sim card slot, and described second sim card slot is used for arranging the second SIM, and described second SIM is connected with the second processor by the 2nd SIM interface circuit.

9. according to the arbitrary described cardiac electricity detecting system of claim 6-8, it is characterized in that, described second processor takes out the data in wantonly two time periods of measurand with the mode display of time ecg curve on the second display from second memory, work station or background server.

10. cardiac electricity detecting system according to claim 1, is characterized in that, the card connecting base of detector and work station link joint under the effect of buckle structure mechatronics to carry out data transmission.