CN211409053U - A recovered device of intracardiac branch of academic or vocational study for data acquisition - Google Patents

Abstract

The utility model discloses a recovered device of intracardiac branch of academic or vocational study for data acquisition belongs to postoperative rehabilitation auxiliary assembly technical field, including pacemaker monitoring module, signal transmission line and heart rate monitoring module, be connected through the bluetooth between pacemaker monitoring module and the pacemaker, pacemaker monitoring module and heart rate monitoring module are the paster structure, heart rate monitoring module pastes at human chest heart position, pacemaker monitoring module and heart rate monitoring module are connected with the data record module through signal transmission line respectively. The utility model discloses a set up pacemaker monitoring module and rhythm of the heart monitoring module, self-service monitoring pacemaker postoperative heart function recovery condition, monitoring pacemaker frequency of use simultaneously, through data reading terminal collection and relevant data of storage, judge the patient bradycardia, incidence such as atrial fibrillation, can also gather some diseases such as the abnormal rhythm of the heart that the heart electrograph is difficult to gather and take the treatment to in time discover the disease and take the treatment.

Description

A recovered device of intracardiac branch of academic or vocational study for data acquisition

Technical Field

The utility model belongs to the technical field of postoperative rehabilitation auxiliary assembly, a recovered device of intracardiac branch of academic or vocational study for data acquisition is related to.

Background

The heart pacemaker is an electronic therapeutic apparatus implanted in a human body, and electric pulses powered by a battery are delivered by a pulse generator, and conducted by a lead electrode to stimulate cardiac muscle contacted by the electrode so as to excite and contract the heart, thereby achieving the aim of treating heart dysfunction caused by certain arrhythmia. Cardiac pacemakers are commonly used for treating bradyarrhythmias and tachyarrhythmias, and also for treating non-cardiac electrical diseases, such as paroxysmal atrial tachyarrhythmia, carotid sinus syncope, dual-chamber simultaneous therapy drug refractory congestive heart failure, and the like.

The effective life of the conventional cardiac pacemaker is generally 6-7 years and more. The effective life of the pacemaker mainly refers to the service life of the battery of the pacemaker, patients implanted with the pacemaker mostly have bradycardia and need pacemaker auxiliary pacing, and if the battery of the pacemaker is exhausted suddenly, the patients are exposed to the risks of hypodynamia, syncope and even death. Therefore, patients implanted with pacemakers are required to visit hospitals regularly, the follow-up frequency required in the first 6 years of pacemaker implantation is generally low, and after the last 6 years, patients are required to visit every half or three months for checking the battery capacity of the pacemakers, and the time for operating the pacemakers is estimated so as to replace the pacemakers at proper time.

In the prior art, special equipment is used for checking the electric quantity of a pacemaker, and an operation is not needed. However, the existing problems are that firstly, part of patients can keep the heart rate above a set heart rate value, the pacemaker is not required to assist at any moment, the consumption of a battery of the pacemaker is greatly reduced, and the pacemaker can work for a long time after the implantation time of the pacemaker reaches the theoretical age; secondly, after the implantation time of the pacemaker of the patient reaches the theoretical age, the follow-up frequency is increased, the follow-up time of the next time can be confirmed after each follow-up visit, and the pacemaker is not convenient for the patient far away from the hospital; thirdly, after the patient is implanted with the pacemaker, the use rate of the pacemaker and the rehabilitation condition of the heart function are often unknown, and the patient can only know the pacemaker in the electrocardiographic examination in a hospital, but some diseases of the heart, such as atrial fibrillation, can not be captured in the electrocardiographic examination.

In the prior art, for hospitalized patients, an electrocardiograph monitor is often adopted to monitor the heart rate, blood pressure, blood oxygen and other parameters of the patients, but the monitoring data of the electrocardiograph monitor cannot be stored and is not generally used as the basis for judging the state of an illness; when necessary, a 24-hour dynamic electrocardiogram instrument is adopted to monitor the heart rate and other parameters of a patient in one day, a group of monitoring images are formed after the monitoring is finished, and the monitoring images are led into a computer from the dynamic electrocardiogram instrument to be checked and analyzed. For patients, the two monitoring modes are inconvenient, the cost is high, abnormal heart rate which occurs at ordinary times cannot be captured, and misjudgment of doctors on the illness state of the patients can be influenced.

Therefore, the Chinese utility model with the application number of CN201721563986.9 discloses a wearable device for monitoring the electrocardio of a heart patient during exercise outside the hospital, which adopts a collar type structure, is convenient and comfortable to wear, is beneficial to a user to carry and wear during the exercise, and is more convenient to monitor the electrocardio and collect exercise parameters during the exercise; in the exercise process, the electrocardio acquisition module and the exercise acquisition module acquire user data and compare the user data with a first exercise result, and form a report of the exercise result to be fed back to the rehabilitation management center, so that the exercise rehabilitation effect monitoring function is achieved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a recovered device of heart internal medicine for data acquisition to reach the convenient effect of monitoring, can gather useful data, be favorable to the recovered process analysis of patient, and can regard as the valuable data of pacemaker postoperative existing problems with data.

The utility model discloses a realize through following technical scheme.

The utility model provides a recovered device of intracardiac branch of academic or vocational study for data acquisition, includes pacemaker monitoring module, signal transmission line and heart rate monitoring module, be connected through the bluetooth between pacemaker monitoring module and the pacemaker, pacemaker monitoring module and heart rate monitoring module are the paster structure, heart rate monitoring module pastes at human chest heart position, pacemaker monitoring module and heart rate monitoring module are connected with the data record module through signal transmission line respectively.

Further, pacemaker monitoring module includes bluetooth signal receiver, lithium cell and paster, bluetooth signal receiver and lithium cell are installed in the paster, and the lithium cell provides the electric energy for bluetooth signal receiver, and bluetooth signal receiver passes through signal transmission line and is connected with the data record module.

Further, heart rate monitoring module includes optics heart rate sensor, lithium cell and paster, optics heart rate sensor and lithium cell are installed in the paster, and the lithium cell provides the electric energy for optics heart rate sensor, and optics heart rate sensor passes through signal transmission line and is connected with data record module.

Further, the data recording module comprises a data recording box, a memory card and a battery, wherein the battery supplies power to the data recording box, and the memory card is used for storing recorded data.

Furthermore, the lithium battery is a lithium battery special for quartz watches.

Further, the data recording module is also provided with a fixing belt.

The utility model has the advantages that:

a recovered device of intracardiac branch of academic or vocational study for data acquisition, through setting up pacemaker monitoring module and rhythm of the heart monitoring module, wear according to patient's demand and doctor's requirement, self-service monitoring pacemaker postoperative heart function recovery condition, monitor pacemaker frequency of use simultaneously, gather and save relevant data through data reading terminal, read data at data reading terminal, judge patient's bradycardia, incidence such as atrial fibrillation, as patient's recovered state or the reference data who carries out further treatment, can also gather some diseases such as abnormal rhythm of the heart that the heart electrograph is difficult to gather and take place symptom data, so that in time discover the disease and take treatment.

Through pacemaker monitoring module, can also independently monitor the pacemaker electric quantity, hold the time that the hospital changed the pacemaker, especially to the patient that pacemaker use frequency is not high, can reach the real time monitoring pacemaker electric quantity after the theoretical year at the pacemaker, saved time and the energy of registering, the queuing up of visiting to the hospital for the patient, also saved medical resources, let the hospital provide timely treatment for other more patients that need.

This device simple structure compares among the prior art to the dynamic electrocardiogram of inpatient use, and the cost is much lower, and the operation is also much simpler, can satisfy the acquisition demand of key data, can purchase and use by patient's autonomous selection.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the module connection structure of the present invention.

In the figure: the system comprises a 1-pacemaker, a 2-pacemaker monitoring module, a 3-signal transmission line, a 4-data recording module, a 401-fixing band, a 5-data reading terminal and a 6-heart rate monitoring module.

Detailed Description

The technical solution of the present invention is further described below with reference to the accompanying drawings, but the scope of protection claimed is not limited to the description.

As shown in figure 1 and figure 2, a recovered device of intracardiac branch of academic or vocational study for data acquisition, including pacemaker monitoring module 2, signal transmission line 3 and heart rate monitoring module 6, be connected through the bluetooth between pacemaker monitoring module 2 and the pacemaker, pacemaker monitoring module 2 and heart rate monitoring module 6 are the paster structure, heart rate monitoring module 6 pastes at human chest heart position, pacemaker monitoring module 2 and heart rate monitoring module 6 are connected with data record module 4 through signal transmission line 3 respectively.

Pacemaker monitoring module 2 includes bluetooth signal receiver, lithium cell and paster, bluetooth signal receiver and lithium cell are installed in the paster, and the lithium cell provides the electric energy for bluetooth signal receiver, and bluetooth signal receiver passes through signal transmission line 3 and is connected with data recording module 4.

Heart rate monitoring module 6 includes optics rhythm of the heart sensor, lithium cell and paster, optics rhythm of the heart sensor and lithium cell are installed in the paster, and the lithium cell provides the electric energy for optics rhythm of the heart sensor, and optics rhythm of the heart sensor passes through signal transmission line 3 and is connected with data recording module 4, and the data transmission that will gather is saved in data recording module 4.

The data recording module 4 comprises a data recording box, a memory card and a battery, wherein the battery provides power for the data recording box, the memory card is used for storing recorded data, and the acquired data are output to a computer through the memory card for reading and analyzing.

The lithium battery is a lithium battery special for the quartz watch, and is small in size, convenient to install, long in usable time and stable in discharging.

The data recording module 4 is further provided with a fixing belt 401, and the patient can tie the data recording module 4 on the waistband through the fixing belt 401 and carry about.

Examples

As shown in fig. 1 and 2, a bluetooth device is provided inside the pacemaker 1, and the bluetooth device is powered by a built-in power supply of the pacemaker 1. When the pacemaker 1 works, the built-in Bluetooth device is electrified to work; when the pacemaker 1 does not work, the built-in Bluetooth device is powered off and does not work so as to reduce the electric energy consumption of the pacemaker 1. Pacemaker monitoring module 2 can normally work after setting up and pairing with the inside bluetooth device of pacemaker 1.

The pacemaker monitoring module 2 is adhered to the surface of the skin of the human body outside the pacemaker mounting position. When the pacemaker 1 is started, the internal Bluetooth device of the pacemaker is started, the Bluetooth signal receiver in the pacemaker monitoring module 2 is automatically paired with the internal Bluetooth device of the pacemaker 1 to realize communication, the built-in Bluetooth device of the pacemaker 1 automatically transmits signals to the pacemaker monitoring module 2, the pacemaker monitoring module 2 transmits information such as electric quantity and working state of the pacemaker 1 to the data recording module 4 through the signal transmission line 3, and the data recording module 4 records data and stores the data into the internal storage card.

The heart rate monitoring module 6 is adhered to the surface of the skin of the human body outside the position of the heart. The inside optical heart rate sensor of heart rate monitoring module 6 gathers patient's heart rate data in real time, transmits data recording module 4 through signal transmission line 3 in, and data recording module 4 record data and save to its inside memory card.

The data reading terminal 5 may be a mobile terminal such as a mobile phone and a tablet computer, or may be a fixed terminal such as a computer. The data recording module 4 can be connected with the data reading terminal 5 through the signal transmission line 3, or the memory card in the data recording module 4 is directly taken down to be connected with the data reading terminal 5, so that data can be read, and in the data reading terminal 5, the residual capacity of the pacemaker 1, the working frequency of the pacemaker 1 and the heart rate condition of a patient can be directly seen. Through the contrast and the analysis to data, can obtain the physical sign recovery condition such as the rhythm of the heart of patient's postoperative, also can be through 1 operating frequency to the pacemaker of different periods, judge patient's autonomic bradycardia frequency of occurrence to judge the change condition of patient's cardiac function.

The data recording module 4 is fixed on the waist of the patient through the external fixing belt 401, so that the data recording module can be conveniently carried by the patient without influencing the normal life and action of the patient after the operation.

The device does not need to be carried for a long time, and only needs to be connected and carried by a patient at regular intervals to acquire key data in a certain time period and export and check the data; the patient feels uncomfortable after operation, the device can be carried for a long time to record the key data of the cardiac function change of the patient, the data is transmitted to a doctor to listen to the doctor for guidance, and the doctor can go to a hospital for further examination and treatment under the guidance of the doctor if necessary. According to the technical scheme, the time and energy for the patient to visit the hospital can be greatly saved, and a large amount of medical resources are saved, so that the relevant departments of the hospital can provide timely treatment for more patients in need.

The above-mentioned embodiments are only exemplary, so as to enable those skilled in the art to better understand the technical solution, and should not be construed as limiting the scope of the present invention, and all embodiments fall within the scope of the present invention as long as they are simply replaced according to the technical solution of the present invention.

Claims (6)

1. A cardiology rehabilitation device for data acquisition, comprising: including pacemaker monitoring module (2), signal transmission line (3) and rhythm of the heart monitoring module (6), be connected through the bluetooth between pacemaker monitoring module (2) and the pacemaker, pacemaker monitoring module (2) and rhythm of the heart monitoring module (6) are the paster structure, rhythm of the heart monitoring module (6) are pasted at human chest heart position, pacemaker monitoring module (2) and rhythm of the heart monitoring module (6) are connected with data record module (4) through signal transmission line (3) respectively.

2. A cardiology rehabilitation device for data collection according to claim 1, wherein: pacemaker monitoring module (2) includes bluetooth signal receiver, lithium cell and paster, bluetooth signal receiver and lithium cell are installed in the paster, and the lithium cell provides the electric energy for bluetooth signal receiver, and bluetooth signal receiver passes through signal transmission line (3) and is connected with data record module (4).

3. A cardiology rehabilitation device for data collection according to claim 1, wherein: heart rate monitoring module (6) are including optics heart rate sensor, lithium cell and paster, optics heart rate sensor and lithium cell are installed in the paster, and the lithium cell provides the electric energy for optics heart rate sensor, and optics heart rate sensor passes through signal transmission line (3) and is connected with data record module (4).

4. A cardiology rehabilitation device for data collection according to claim 1, wherein: the data recording module (4) comprises a data recording box, a memory card and a battery, wherein the battery provides power for the data recording box, and the memory card is used for storing recorded data.

5. A cardiology rehabilitation device for data acquisition according to claim 2 or 3, wherein: the lithium battery is a lithium battery special for the quartz watch.

6. A cardiology rehabilitation device for data collection according to claim 1, wherein: the data recording module (4) is also provided with a fixing belt (401).

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