CN113349787B - Wireless electrocardio monitoring equipment - Google Patents

Abstract

The invention discloses wireless electrocardiogram monitoring equipment which comprises a wireless electrocardiogram monitoring system, wherein the wireless electrocardiogram monitoring system comprises a 5G signal transmitting module, a plurality of lead modules and an output end module, the plurality of lead modules comprise a sensor receiving module, a distance judging module and an early warning module, the sensor receiving module comprises a detection module, a data generating module and a wireless transmission module, the output end module comprises a database module and a mobile phone end module, the wireless electrocardiogram monitoring system is electrically connected with an external power supply, the wireless electrocardiogram monitoring system detects the electrocardiogram blood pressure of a patient through wireless transmission, the wireless electrocardiogram monitoring system is arranged in the equipment, the output end module is in signal connection with the lead modules 5G, and the 5G signal transmitting module is in signal connection with the lead modules 5G.

Description

Wireless electrocardio monitoring equipment

Technical Field

The invention relates to the technical field of electrocardio monitoring, in particular to wireless electrocardio monitoring equipment.

Background

The existing wireless electrocardiogram monitoring equipment has the phenomenon of signal disconnection in the wireless transmission process, because the distance is too long, the signal disconnection is unknown, and the function of early warning is not provided.

Disclosure of Invention

The invention aims to provide wireless electrocardiogram monitoring equipment to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a wireless electrocardio supervisory equipment, includes wireless electrocardio monitored control system, its characterized in that: the wireless electrocardiogram monitoring system comprises a 5G signal transmitting module, a plurality of lead modules and an output end module, wherein the lead modules comprise a sensor receiving module, a distance judging module and an early warning module, the sensor receiving module comprises a detection module, a data generating module and a wireless transmission module, and the output end module comprises a database module and a mobile phone end module;

the wireless electrocardiogram monitoring system is electrically connected with an external power supply, detects the electrocardiogram and blood pressure of a patient through wireless transmission, is arranged in the equipment, is connected with the 5G lead module through a 5G signal, and is connected with the 5G signal emitting module through a plurality of 5G lead modules through a 5G signal.

According to the technical scheme, the sensor receiving module, the distance judging module and the early warning module are all arranged in the lead module, the sensor receiving module is electrically connected with the distance judging module, and the early warning module is electrically connected with the distance judging module;

the 5G signal transmitting module has the function of transmitting 5G signals, the sensor receiving module can receive the transmitted 5G signals, the distance judging module can calculate the distance between the sensor receiving module and the 5G signal transmitting module, the early warning module has the function of warning through distance change, and the plurality of lead modules can be freely placed at all parts of a patient.

According to the technical scheme, the detection module, the data generation module and the wireless transmission module are all arranged in the sensor receiving module, the sensor receiving module is electrically connected with the detection module, the data generation module is electrically connected with the detection module, and the wireless transmission module is electrically connected with the data generation module;

the sensor receiving module transmits the 5G signals to the detection module, the detection module detects the electrocardio-blood pressure of a patient, the data generation module generates the detected electrocardio-blood pressure data, and the wireless transmission module transmits the generated data through the wireless 5G signals.

According to the technical scheme, the database module is electrically connected with the wireless transmission module, the mobile phone end module is electrically connected with the wireless transmission module, the database module receives data sent by the wireless transmission module, the database module collects and retains the received data in the database, the mobile phone end module receives the data sent by the wireless transmission module, and the collection end module retains the data in the collection of doctors.

According to the technical scheme, the wireless electrocardiogram monitoring system comprises the following operation steps:

s1, starting wireless electrocardiogram monitoring equipment;

s2, the wireless electrocardiogram monitoring system is driven by an external power supply to start running;

s3, the 5G signal transmitting module transmits a 5G signal to the lead module after being electrified, the 5G signal is obtained inside the lead module, and the sensor receiving module obtains the 5G signal to start running;

s4, the distance judging module judges the distance between the lead module and the 5G signal transmitting module at the same time;

s5, when the distance between the lead module and the 5G signal transmitting module is gradually enlarged, obtaining a limit distance through calculation, and controlling the operation power of the early warning module;

and S6, the early warning module sends out an alarm to carry out distance control.

According to the technical scheme, in the steps S1 to S6, the lead modules are placed at each part of a patient, the distance is calculated by the distance judging module and fed back to the lead modules, when the distance between the lead modules and the 5G signal emitting module exceeds a certain degree, the distance exceeds the receiving range of the lead modules to the 5G signals, the early warning module in the lead modules starts early warning, and an alarm sound is given out.

According to the technical scheme, in the steps S4 and S5, the power of the early warning module is changed through distance calculation, and the calculation formula is as follows:

wherein P is _r (d) For early warning module 5G signal strength, P _t The emitting power of the 5G signal is constant, gamma is constant of the wavelength of the 5G signal, d is the distance between the lead module and the 5G signal emitting module, and when the distance d is larger, the intensity P of the 5G signal received by the early warning module is larger _r (d) The weaker, T _{General (1)} The time length of the jump of the early warning module is W, the work of the early warning module is constant, and when the 5G signal intensity P _r (d) The weaker the time T that the early warning module is jumped _{General assembly} The longer.

According to the technical scheme, the wireless electrocardiogram monitoring system further comprises the following operation steps:

a1, a sensor receiving module receives a 5G signal and starts to operate;

a2, the sensor receiving module drives the detection module to detect the electrocardio-blood pressure of the patient and feeds detected data back to the data generation module;

a3, a data generation module generates and packs data into data blocks;

a4, transmitting the packed data block through a wireless transmission module;

a5, the wireless transmission module transmits the packed data blocks to the database module and the mobile phone end module respectively through 5G signals;

a6, the database module collects the received data blocks in a gathering mode, and the mobile phone end module feeds the received data blocks back to the mobile phone for a doctor to observe.

According to the technical scheme, in the steps A1 to A4, the sensor receiving module receives the 5G signal and transmits the signal to the detection module, the detection module immediately reacts within a second, the patient is subjected to the electrocardio-blood pressure examination, the examined data are fed back to the data generation module, the data generation module packs the data into data blocks, the data blocks are transmitted to the wireless transmission module, and the data blocks are sent out through the 5G signal.

According to the technical scheme, in the steps A5 and A6, the packaged data block is transmitted to the database module and the mobile phone end module through the wireless transmission module respectively, the database module collects the data block into the database, and the mobile phone end module displays the data in the data block to a doctor.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, by arranging the lead module, the situation that the lead module cannot transmit 5G signals beyond the 5G signal range can be avoided, so that the condition that a patient cannot be diagnosed due to the failure of subsequent electrocardio-blood pressure detection is prevented, and the efficiency of a doctor in the diagnosis process is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic flow diagram of the present invention;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides the following technical solutions: a wireless electrocardiogram monitoring device comprises a wireless electrocardiogram monitoring system, wherein the wireless electrocardiogram monitoring system comprises a 5G signal transmitting module, a plurality of lead modules and an output end module, the plurality of lead modules comprise a sensor receiving module, a distance judging module and an early warning module, the sensor receiving module comprises a detection module, a data generating module and a wireless transmission module, and the output end module comprises a database module and a mobile phone end module;

the wireless electrocardiogram monitoring system is electrically connected with an external power supply, detects the electrocardiogram and blood pressure of a patient through wireless transmission, is arranged in the equipment, and is connected with the 5G lead module 5G signal, and the 5G signal emission module is connected with the 5G lead modules 5G signal.

The sensor receiving module, the distance judging module and the early warning module are all arranged in the lead module, the sensor receiving module is electrically connected with the distance judging module, and the early warning module is electrically connected with the distance judging module;

the 5G signal transmitting module has the function of transmitting 5G signals, the sensor receiving module can receive the transmitted 5G signals, the distance judging module can calculate the distance between the sensor receiving module and the 5G signal transmitting module, the early warning module has the function of warning through distance change, and the plurality of lead modules can be freely placed at each part of a patient.

The detection module, the data generation module and the wireless transmission module are all arranged in the sensor receiving module, the sensor receiving module is electrically connected with the detection module, the data generation module is electrically connected with the detection module, and the wireless transmission module is electrically connected with the data generation module;

the sensor receiving module transmits the 5G signals to the detection module, the detection module detects the electrocardio-blood pressure of a patient, the data generation module generates the detected electrocardio-blood pressure data, and the wireless transmission module transmits the generated data through the wireless 5G signals.

The database module is electrically connected with the wireless transmission module, the mobile phone end module is electrically connected with the wireless transmission module, the database module receives data sent by the wireless transmission module, the database module collects and retains the received data in the database, the mobile phone end module receives the data sent by the wireless transmission module, and the collection end module retains the data in the collection of doctors.

The wireless electrocardiogram monitoring system comprises the following operation steps;

s1, starting wireless electrocardiogram monitoring equipment;

s2, the wireless electrocardiogram monitoring system is driven by an external power supply to start running;

s3, after the 5G signal transmitting module is electrified, the 5G signal is transmitted to the lead module, the 5G signal is obtained inside the lead module, and the 5G signal obtained by the sensor receiving module starts to operate;

s4, the distance judgment module judges the distance between the lead module and the 5G signal transmission module at the same time;

s5, after the distance between the lead module and the 5G signal transmitting module is gradually enlarged, calculating to obtain a limit distance so as to control the operation power of the early warning module;

and S6, the early warning module sends out an alarm to carry out distance control.

In the steps S1 to S6, the lead module is placed at each part of a patient, the distance is calculated by the distance judgment module and fed back to the lead module, when the distance between the lead module and the 5G signal emitting module exceeds a certain degree, the distance exceeds the receiving range of the 5G signal by the lead module, the early warning module in the lead module starts early warning and gives out warning sound, the condition that the 5G signal cannot be transmitted when the lead module exceeds the 5G signal range can be avoided, the condition that the patient cannot be diagnosed due to the failure of subsequent electrocardio-blood pressure detection is avoided, and the efficiency of a doctor in the diagnosis process is improved.

In steps S4 and S5, the power of the warning module is changed by distance calculation, and the calculation formula is:

wherein P is _r (d) For early warning module 5G signal strength, P _t The emitting power of the 5G signal is constant, gamma is constant of the wavelength of the 5G signal, d is the distance between the lead module and the 5G signal emitting module, and when the distance d is larger, the intensity P of the 5G signal received by the early warning module is larger _r (d) The weaker, T _{General assembly} For early warning module jumpWhen the 5G signal strength P is equal to the 5G signal strength, W is a constant function of the early warning module _r (d) The weaker the time T that the early warning module is jumped _{General assembly} The longer, can be according to the change of 5G signal reception distance at this moment, it is long when automatic transform early warning module alarm to make the doctor know the receiving range of 5G signal when checking for the patient, the patient surpasss simultaneously and begins to report to the police and the distance is the bigger the alarm time is longer, in order to prevent to take and forget to take off on patient, and avoid the alarm time too short to in time hear the reaction and lead to lead the module of leading to leave over on patient.

The wireless electrocardiogram monitoring system also comprises the following operation steps:

a1, a sensor receiving module receives a 5G signal and starts to operate;

a2, the sensor receiving module drives the detection module to detect the electrocardio-blood pressure of the patient and feeds detected data back to the data generation module;

a3, a data generation module generates and packs data into data blocks;

a4, transmitting the packed data block through a wireless transmission module;

a5, the wireless transmission module transmits the packed data block to the database module and the mobile phone end module respectively through 5G signals;

a6, the database module collects the received data blocks in a gathering mode, and the mobile phone end module feeds the received data blocks back to the mobile phone for a doctor to observe.

In the steps A1 to A4, the sensor receiving module receives the 5G signal and transmits the signal to the detection module, the detection module immediately reacts within a second, the patient is subjected to the electrocardiographic blood pressure examination, the examined data are fed back to the data generation module, the data generation module packs the data into data blocks, the data blocks are transmitted to the wireless transmission module and are sent out through the 5G signal, the patient can be intelligently examined through 5G wireless transmission, the examination starting speed is accelerated, the stability of the signal transmission process can be improved through the packed data blocks, and the subsequently collected data cannot be missed or have errors.

In the steps A5 and A6, the packed data blocks are transmitted to the database module and the mobile phone end module through the wireless transmission module respectively, the database module gathers the data blocks into the database, the mobile phone end module presents the data in the data blocks to a doctor, the doctor can conveniently observe the data, the diagnosis process is more efficient, meanwhile, historical examination data can be inquired through the data blocks in the database, the doctor can conveniently perform data comparison, and the diagnosis effect on patients is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The utility model provides a wireless electrocardio supervisory equipment, includes wireless electrocardio monitored control system, its characterized in that: the wireless electrocardiogram monitoring system comprises a 5G signal transmitting module, a plurality of lead modules and an output end module, wherein the lead modules comprise a sensor receiving module, a distance judging module and an early warning module, the sensor receiving module comprises a detection module, a data generating module and a wireless transmission module, and the output end module comprises a database module and a mobile phone end module;

the wireless electrocardiogram monitoring system is electrically connected with an external power supply, detects the electrocardiogram and blood pressure of a patient through wireless transmission, is arranged in the equipment, is connected with the 5G lead module through a 5G signal, and is connected with the 5G signal emitting module through a plurality of 5G lead modules through signals; the sensor receiving module, the distance judging module and the early warning module are all arranged in the lead module, the sensor receiving module is electrically connected with the distance judging module, and the early warning module is electrically connected with the distance judging module;

the 5G signal transmitting module has the function of transmitting 5G signals, the sensor receiving module receives the transmitted 5G signals, the distance judging module calculates the distance between the sensor receiving module and the 5G signal transmitting module, the early warning module has the function of warning through distance change, and the lead modules are freely placed at all parts of a patient; the detection module, the data generation module and the wireless transmission module are all arranged in the sensor receiving module, the sensor receiving module is electrically connected with the detection module, the data generation module is electrically connected with the detection module, and the wireless transmission module is electrically connected with the data generation module;

the sensor receiving module transmits the 5G signals to the detection module, the detection module detects the electrocardio-blood pressure of a patient, the data generation module generates the detected electrocardio-blood pressure data, and the wireless transmission module transmits the generated data through wireless 5G signals; the database module is electrically connected with the wireless transmission module, the mobile phone end module is electrically connected with the wireless transmission module, the database module receives data sent by the wireless transmission module, the database module collects and retains the received data in a database, the mobile phone end module receives the data sent by the wireless transmission module, and the collection end module retains the data in a collection of a doctor; the wireless electrocardiogram monitoring system comprises the following operation steps;

s1, starting wireless electrocardiogram monitoring equipment;

s2, the wireless electrocardiogram monitoring system is driven by an external power supply to start running;

s3, the 5G signal transmitting module transmits a 5G signal to the lead module after being electrified, the 5G signal is obtained inside the lead module, and the sensor receiving module obtains the 5G signal to start running;

s4, the distance judgment module judges the distance between the lead module and the 5G signal transmission module at the same time;

s5, after the distance between the lead module and the 5G signal transmitting module is gradually enlarged, calculating to obtain a limit distance so as to control the operation power of the early warning module;

s6, the early warning module sends out an alarm to carry out distance control;

in the steps S1 to S6, the lead module is placed at each part of a patient, the distance is calculated by the distance judgment module and fed back to the lead module, when the distance between the lead module and the 5G signal emitting module exceeds a certain degree, the receiving range of the 5G signal by the lead module is exceeded, the early warning module in the lead module starts early warning to emit warning sound;

in the steps S4 and S5, the power of the early warning module is changed by distance calculation, and the calculation formula is as follows:

；

；

wherein

In order to pre-alarm the signal strength of the module 5G,

the signal transmission power is constant for 5G,

the wavelength of the signal is constant for 5G,

the distance between the lead module and the 5G signal emitting module is

The larger the signal intensity is, the 5G signal intensity received by the early warning module

The weaker the strength of the material to be treated,

for the duration of the module jump,

the work of the early warning module is constant, and when the 5G signal intensity

The weaker the duration of the pre-warning module jumping

The longer.

2. The wireless electrocardiograph monitoring device according to claim 1, wherein: the wireless electrocardiogram monitoring system also comprises the following operation steps:

a1, a sensor receiving module receives a 5G signal and starts to operate;

a2, the sensor receiving module drives the detection module to detect the electrocardio-blood pressure of the patient and feeds the detected data back to the data generation module;

a3, a data generation module generates and packs data into data blocks;

a4, transmitting the packed data block through a wireless transmission module;

a5, the wireless transmission module transmits the packed data block to the database module and the mobile phone end module respectively through 5G signals;

a6, the database module collects the received data blocks in a gathering mode, and the mobile phone end module feeds the received data blocks back to the mobile phone for a doctor to observe.

3. A wireless electrocardiographic monitoring apparatus according to claim 2, wherein: in the steps A1 to A4, the sensor receiving module receives the 5G signal and transmits the signal to the detection module, the detection module immediately reacts within seconds, the electrocardio-blood pressure of the patient is checked, the checked data are fed back to the data generation module, the data generation module packs the data into data blocks, the data blocks are transmitted to the wireless transmission module, and the data blocks are sent out through the 5G signal.

4. A wireless electrocardiographic monitoring apparatus according to claim 3 wherein: in the steps A5 and A6, the packaged data block is transmitted to the database module and the mobile phone end module through the wireless transmission module respectively, the database module gathers the data block into the database, and the mobile phone end module displays the data in the data block to a doctor.

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