CN208942127U - A kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device - Google Patents

Abstract

The utility model discloses a kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device, the device includes EGC sensor, heart sound transducer, electrocardiosignal A/D conversion module, cardiechema signals A/D conversion module, wireless transport module, processor, memory module and display, the device energy synchronous acquisition heart electrocardio and cardiechema signals, convenient for having great importance to heart patient's real-time monitoring and cardiac function scientific research to heart electrocardio and the research of cardiechema signals Synchronization Analysis.

Description

A kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device

Technical field

This or utility model are related to heart sound, ecg signal acquiring technical field, and in particular to a kind of wireless heart sound, electrocardio letter Number automatic synchronization acquisition device.

Background technique

At present to the early screening of heart disease mainly based on cardiac auscultation and ECG examination.Cardiac auscultation and electrocardio Figure, which checks, has convenience, low in cost, meanwhile, heart sound electrocardiosignal is the signal that heart itself issues, and can intuitively be reflected The functional status of heart itself, therefore, heart sound electrocardiographic examination have unrivaled advantage in cardiac disease treatment.

But there are problems for the inspection of traditional heart sound electrocardiosignal, comprising: 1. cardiophonies rely primarily on auscultation Device is judged by doctor heart sound, is limited by human auditory system that the interference of signal noise is big, and the judgement realized is subjective Property it is larger, lack accurate and objectivity.2. electrocardiosignal diagnoses mainly based on electrocardiograph, and current electrocardio equipment inspection It looks into cumbersome, does not have a portability, check and need higher professional technique requirement.3. heart sound and electrocardio are all that heart directly issues Signal, has all directly reacted functional status of heart itself, and existing equipment is single heart sound or ecg signal acquiring Device needs two acquisition devices that could complete, and operates comparatively more troublesome.

Utility model content

The purpose of this utility model is to provide a kind of wireless type heart sound, electrocardiosignal automatic synchronization acquisition device, the dresses Heart sound, electrocardiosignal can be collected simultaneously by setting, and be convenient for Synchronization Analysis comparative study, needed difference in the prior art to solve Instrument is come the problem of operation.

To achieve the above object, the technical solution of the utility model are as follows:

A kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device, described device include:

EGC sensor, for acquiring patient's electrocardiosignal；

Heart sound transducer, for acquiring the cardiechema signals of patient；

The electrocardiosignal A/D conversion module being electrically connected with the EGC sensor, for converting cardiac electrical analog signal For digital signal；

The cardiechema signals A/D conversion module being electrically connected with the heart sound transducer, for converting the analog signal of heart sound For digital signal；

The wireless transmission mould being wirelessly connected with the electrocardiosignal A/D conversion module and cardiechema signals A/D conversion module Block, for sending the electrocardiosignal and cardiechema signals that pass through A/D conversion to processor；

The processor being wirelessly connected with the wireless transport module, for handling electrocardiosignal, cardiechema signals.

The memory module and display module being connected to the processor, the memory module is for real-time storage by processing The electrocardio of patient afterwards, cardiechema signals information, the display module are timely for real-time display electrocardio, the waveform of cardiechema signals Between.

Further, the EGC sensor includes limb leads EGC sensor and precordial leads EGC sensor.

Further, the number of the limb leads EGC sensor is three, and electrode is individually positioned in human body Left upper extremity, right upper extremity and left lower extremity.

Also, the number of the precordial leads EGC sensor is 6, the front of the human body of placement.

Wherein, the number of the heart sound transducer is 5, is individually positioned in 5 heart valve area of auscultation.Heart valve is listened It examines area and is respectively as follows: 1. mitral area: being located at apex beat point of maximum intensity, also known as apical region of heart；2. pulmonary area: in left border of sternum 2 intercostals；3. aortic area: being located at the 2nd intercostal of right border of sternum；4. the second area of auscultation of aorta petal: in the 3rd rib of left border of sternum Between, the also known as area Erb；5. tricuspid valve area: in breastbone lower end left border, i.e. left border of sternum the 4th, 5 intercostals.

Preferably, the wireless transport module is bluetooth.

Further, described device further includes the power module being connected to the processor, for powering to processor, Wherein power module can choose battery, be convenient for carrying.

Preferably, there is USB interface in the memory module, can be connect with external mobile device and carry out data biography It is defeated.

Preferably, the display module is touch control display, facilitates operation, has audio interface on the display module, For connecting loudspeaker or earphone, facilitate extraneous reception sound.

The utility model has the advantages that

1, the present apparatus is easy to use, and energy synchronous acquisition heart electrocardio and cardiechema signals, is convenient for Synchronization Analysis comparative study, Have great importance to heart patient's real-time monitoring and cardiac function scientific research.

2, present apparatus application Wireless transceiver avoids complicated route and electric current noise interference electrocardio result.Heart sound letter simultaneously Number receptor be close to skin, without hand steered equal External force interferences, avoid the interference of the noises such as fricative, improve the true of signal Accuracy.

3, the present apparatus is based on capacitance touching control display, automatic to monitor, and storage, real-time display signal results are easy to operate, are Clinical application and scientific research provide acquisition information approach well.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the wireless heart sound of the utility model, electrocardiosignal automatic synchronization acquisition device；

Fig. 2 is the structural schematic diagram of specific wireless heart sound, electrocardiosignal automatic synchronization acquisition device；

Fig. 3 is the wireless heart sound for having power module, the structural schematic diagram of electrocardiosignal automatic synchronization acquisition device.

Specific embodiment

The following examples illustrate the utility model, but is not intended to limit the scope of the present invention.

Embodiment 1

A kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device, referring to Fig.1 shown in, described device includes:

EGC sensor, for acquiring patient's electrocardiosignal；

Heart sound transducer, for acquiring the cardiechema signals of patient；

The electrocardiosignal A/D conversion module being electrically connected with the EGC sensor, for converting cardiac electrical analog signal For digital signal；

The cardiechema signals A/D conversion module being electrically connected with the heart sound transducer, for converting the analog signal of heart sound For digital signal；

The wireless transmission mould being wirelessly connected with the electrocardiosignal A/D conversion module and cardiechema signals A/D conversion module Block, for sending the electrocardiosignal and cardiechema signals that pass through A/D conversion to processor；The wireless transmission mould of the present embodiment selection Block is bluetooth；

The processor being wirelessly connected with the wireless transport module, for handling electrocardiosignal, cardiechema signals.

The memory module and display module being connected to the processor, the memory module is for real-time storage by processing The electrocardio of patient afterwards, cardiechema signals information, the display module are timely for real-time display electrocardio, the waveform of cardiechema signals Between.

Wherein, more specifically, referring to shown in Fig. 2, the EGC sensor includes limb leads EGC sensor and front Lead EGC sensor.The number of the limb leads EGC sensor is three, and electrode is individually positioned in the upper left of human body Limb, right upper extremity and left lower extremity.The number of the precordial leads EGC sensor is 6, the front of the human body of placement.

Wherein, the heart sound transducer is named as front area of auscultation heart sound transducer, and number is 5, is individually positioned in 5 A heart valve area of auscultation.Heart valve area of auscultation is respectively as follows: 1. mitral area: being located at apex beat point of maximum intensity, the also known as apex of the heart Area；2. pulmonary area: in the 2nd intercostal of left border of sternum；3. aortic area: being located at the 2nd intercostal of right border of sternum；4. aorta petal Second area of auscultation: in the 3rd intercostal of left border of sternum, the also known as area Erb；5. tricuspid valve area: in breastbone lower end left border, i.e. left border of sternum 4,5 intercostal.

Embodiment 2

A kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device, referring to shown in Fig. 3, described device includes:

EGC sensor, for acquiring patient's electrocardiosignal；

Heart sound transducer, for acquiring the cardiechema signals of patient；

The electrocardiosignal A/D conversion module being electrically connected with the EGC sensor, for converting cardiac electrical analog signal For digital signal；

The cardiechema signals A/D conversion module being electrically connected with the heart sound transducer, for converting the analog signal of heart sound For digital signal；

The wireless transmission mould being wirelessly connected with the electrocardiosignal A/D conversion module and cardiechema signals A/D conversion module Block, for sending the electrocardiosignal and cardiechema signals that pass through A/D conversion to processor；The wireless transmission mould of the present embodiment selection Block is bluetooth；

The processor being wirelessly connected with the wireless transport module, for handling electrocardiosignal, cardiechema signals.

The memory module and display module being connected to the processor, the memory module is for real-time storage by processing The electrocardio of patient afterwards, cardiechema signals information, the display module are timely for real-time display electrocardio, the waveform of cardiechema signals Between.

The power module being connected to the processor, for entire wireless heart sound electrocardiosignal automatic synchronization acquisition device Power supply, wherein power module can choose battery, be convenient for carrying.

There is USB interface in the memory module, can connect and carry out data transmission with external mobile device.

The display module is touch control display, facilitates operation, has audio interface on the display module, for connecting Loudspeaker or earphone facilitate extraneous reception sound.

Wherein, the EGC sensor includes limb leads EGC sensor and precordial leads EGC sensor.

The number of the limb leads EGC sensor is three, and electrode is individually positioned in the left upper extremity of human body, upper right Limb and left lower extremity.

The number of the precordial leads EGC sensor is 6, the front of the human body of placement.

Wherein, the heart sound transducer is named as front area of auscultation heart sound transducer, and number is 5, is individually positioned in 5 A heart valve area of auscultation.Heart valve area of auscultation is respectively as follows: 1. mitral area: being located at apex beat point of maximum intensity, the also known as apex of the heart Area；2. pulmonary area: in the 2nd intercostal of left border of sternum；3. aortic area: being located at the 2nd intercostal of right border of sternum；4. aorta petal Second area of auscultation: in the 3rd intercostal of left border of sternum, the also known as area Erb；5. tricuspid valve area: in breastbone lower end left border, i.e. left border of sternum 4,5 intercostal.

Concrete operating principle and application method are as follows: the electrode of 3 limb leads sensors is placed on left and right upper limb respectively And left lower extremity, 6 precordial leads sensors are placed on front, 5 front area of auscultation heart sound transducers are individually positioned in 5 hearts Auscultatory valve areas, device for opening switch, synchronous acquisition cardiechema signals and electrocardiosignal, collected cardiechema signals are believed by heart sound The analog signal of heart sound is converted digital signal by number A/D conversion module；Collected electrocardiosignal passes through electrocardiosignal A/D Cardiac electrical analog signal is converted digital signal by conversion module, is then sent at processor by wireless transport module Reason, treated signal can be stored in memory module, additionally it is possible to show that electrocardio, heart sound are believed by display module in time Number waveform and time, and auditory tone cues can be carried out by audio-frequence player devices such as loudspeakers, 30 are no less than using the time every time Second, sample frequency 4000Hz.The device can be realized heart sound and electrocardiosignal simultaneous display.

Although above having made detailed description to utility model with generality explanation and specific embodiment, On the basis of the present invention, it can be made some modifications or improvements, this will be apparent to those skilled in the art.Cause This, these modifications or improvements, fall within the scope of the claimed invention without departing from theon the basis of the spirit of the present invention.

Claims (9)

1. a kind of wireless heart sound, electrocardiosignal automatic synchronization acquisition device, which is characterized in that the acquisition device includes:

EGC sensor, for acquiring patient's electrocardiosignal；

Heart sound transducer, for acquiring the cardiechema signals of patient；

The electrocardiosignal A/D conversion module being electrically connected with the EGC sensor, for converting number for cardiac electrical analog signal Word signal；

The cardiechema signals A/D conversion module being electrically connected with the heart sound transducer, for converting number for the analog signal of heart sound Word signal；

The wireless transport module being wirelessly connected with the electrocardiosignal A/D conversion module and cardiechema signals A/D conversion module is used In by pass through A/D conversion electrocardiosignal and cardiechema signals send processor to；

The processor being wirelessly connected with the wireless transport module, for handling electrocardiosignal, cardiechema signals；

The memory module and display module that are connected to the processor, the memory module for real-time storage after treatment The electrocardio of patient, cardiechema signals information, the display module are used for real-time display electrocardio, the waveform of cardiechema signals and time.

2. wireless heart sound according to claim 1, electrocardiosignal automatic synchronization acquisition device, which is characterized in that the heart Electric transducer includes limb leads EGC sensor and precordial leads EGC sensor.

3. wireless heart sound according to claim 2, electrocardiosignal automatic synchronization acquisition device, which is characterized in that the limb The number of body lead EGC sensor is three, and electrode is individually positioned in the left upper extremity, right upper extremity and left lower extremity of human body.

4. wireless heart sound according to claim 2, electrocardiosignal automatic synchronization acquisition device, which is characterized in that the chest The number of preceding lead EGC sensor is 6, the front of the human body of placement.

5. line heart sound according to claim 1, electrocardiosignal automatic synchronization acquisition device, which is characterized in that the heart sound The number of sensor is 5, is individually positioned in 5 heart valve area of auscultation.

6. wireless heart sound according to claim 1, electrocardiosignal automatic synchronization acquisition device, which is characterized in that the nothing Line transmission module is bluetooth.

7. wireless heart sound according to claim 1, electrocardiosignal automatic synchronization acquisition device, which is characterized in that described to adopt Acquisition means further include the power module being connected to the processor, for powering to processor.

8. wireless heart sound according to claim 1, electrocardiosignal automatic synchronization acquisition device, which is characterized in that described to deposit Storing up has USB interface in module.

9. wireless heart sound according to claim 1, electrocardiosignal automatic synchronization acquisition device, which is characterized in that described aobvious Show that module is touch control display, there is audio interface on the display module, for connecting loudspeaker or earphone.