TWM511299U - Real-time body posture sensing micro physiological monitoring system with series-connection fixing type electrophysiological detection cavity - Google Patents

Description

Instant body state sensing micro physiological monitoring system with serially connected electrophysiological detection cavity

The present invention relates to an instant body-sensing micro-physiological monitoring system with a serially connected electrophysiological detection cavity. In particular, it is about a complete understanding of the user's physiological and postural status through the body position induction sensor, and reminds the user of relevant physiological information changes, which can be applied to remote care, work physiological information management, heart rate analysis, emotional state management and instant medical monitoring. Long-term carrying a miniature physiological monitoring system.

With the change of modern lifestyle, the situation of the silver-haired people living alone in the society continues to increase; when the silver-haired people face changes in their lifestyle, they may become depressed and negative, except for the impact of the younger society on the silver-haired people. The rapid development of science and technology has made the original simple and regular life become complicated and changeable. Therefore, for the silver-haired people, this change is likely to cause the disconnection between their life and the social environment, and thus cause psychological anxiety. Long-term anxiety, affecting family, interpersonal, work, study, diet, sleep and health, most of the time will be difficult to concentrate and memory loss, and easy to show social and social activities, long-term accumulation It will have a negative impact on the development of bodily functions, leading to major diseases; in addition to physiological deterioration, emotional disorders are another common psychological problem of the silver-haired people, such as depression and anxiety and other psychological disorders. Melancholy Sadness and loneliness, reduced self-esteem and self-blame, slow mental and physical movements, retreat of interpersonal relationships, and tendency to seek death; and anxiety makes people subjectively and persistently feel fear, fear, concern, and expectation will happen. Delusion; in addition to mental feelings, or symptoms of body organ discomfort, such as gastrointestinal discomfort, palpitations, difficulty breathing, etc.; therefore, the measurement of immediate heart and heart rhythm physiological information is more important, even in the user's heart rhythm Analysis and emotional state management. Generally, traditional ECG records are large and expensive instruments, not portable, and are mainly used by medical experts in medical institutions, and are not easy to use or for remote medical care. Generally, the traditional portable electrocardiograph is bulky and heavy, and wearing the twenty-four or forty-eight hours will cause the user to bear the burden, and the sleep quality will also affect the quality of sleep. Most of them do not have a screen display function, so it is impossible to know the recording status or the signal quality. Even if the signal is interrupted or the noise is recorded, it is not known. It is not until the completion of the twenty-four or forty-eight hours, and it is often necessary to re-record. And there are many studies on heart disease today. Clinical observations for one week of continuous data, such as signal interruption or recording of noise, must be confirmed and started again, which is quite troublesome. Most portable electrocardiographs do not have an immediate output signal function and no warning function, and most of the instruments are expensive. Because of these problems, the use of portable electrocardiographs has been limited, and is limited to the use of cardiologists. This creation integrates micro-institution design, synchronous recording technology, interference removal technology, physiological signal sensing technology and analysis algorithms. In order to realize a system that is small and easy to carry and complete and timely and correctly record cardiac physiological ECG information and immediate body position changes. Long-term ECG monitoring is used to detect the heart's response to normal activities. It can also be used to: monitor heart attacks, diagnose heart rhythm problems, atrial fibrillation/flutter, multiple atrial tachycardia, palpitations, paroxysmal Ventricular tachycardia, bradycardia leading to fainting, ventricular tachycardia and so on. As far as ECG monitoring and analysis is concerned, since many myocardial defects can change the telecommunication conduction, the waveform and appearance time of the electrocardiogram may be affected, which is why In the diagnosis of certain heart diseases, the cause of the ECG message must be relied upon. However, at present, many people have focused on the development of portable ECG information detectors, which are smaller in size and lighter in weight. However, they are still limited by recording time, insufficient lead count and poor precision, and it is difficult to eliminate noise. And usually still can't report the instant signal, there is still much room for improvement. In order to achieve long-distance home care, wireless monitoring modules through the network and real-time monitoring will be the most user-friendly solution. At the same time, Taiwan's development of wireless-related industries has a considerable foundation. In line with the short-term development of electronic medical equipment, it is very important to develop relevant remote home care core modules and components at this time. The electrode patch used in the instrument for measuring the electrocardiogram is a sensing element that directly contacts the human body. However, the electrode sheets used in the current testing instruments are mostly separated structures, that is, they need to be pulled out from the electrode sheets through the signal wires and then connected to the sensing instruments. In this way, not only will the connection complexity of the sensing device be increased, but the user will be inconvenient in operation. The patented wearable physiological monitor patent system with flexible flexible integrated circuit in the world patent WOO 3,065,926 discloses a physiological patch with wireless monitoring function, and its patch module system For the single-sided structure design, the sensor and the electronic components are all disposed on the same side of the physiological patch, and the design structure has the disadvantage that the electronic component cannot be properly protected. In addition, the Republic of China Patent M 3 940 discloses a miniature wireless long-term portable full ECG recording system, but it still requires professional operation to install the electrode strip and physiological signal detection points. The Republic of China Patent No. M 4466/14 discloses a player's movement trajectory and physiological monitoring device. The message detection point is installed on the highly mobile clothing, and there are many problems of noise and interference. The Republic of China Patent No. 3127679 provides a physiological monitoring device that integrates a buttonless thin electrode with a signal processing module, although it is desirable to allow the operator to attach the physiological monitoring device without pulling the wire. In the measurement part of the human body, but the signal processing module, sensing electrode and electricity Units such as road plates are integrated into one, which causes clinical and practical problems. In particular, the sensor electrode patch is directly disposed on the signal processing module, and there is a problem of commodity processing. A flexible physiological monitoring device comprising a flexible substrate, a circuit device, a plurality of measuring devices, a radio frequency identification sensing chip, a micro antenna, and a soft magnetic physiological monitoring device are disclosed in the Japanese Patent No. 1,250,866. a power supply, and further comprising a package covering the flexible substrate, the first circuit layer, the second circuit layer, the radio frequency identification sensing chip, the micro antenna, and the power source The supplier prevents contamination of the soft physiological monitoring device by moisture and dust, and at the same time makes the soft physiological monitoring device have a better touch when it comes into contact with the skin, but such a design cannot be properly selected except for having electronic components. The shortcomings of the protection, as well as the uncertainty of the relative position of the components, there are many difficulties in noise and interference cancellation.

Therefore, one of the purposes of the present invention is to provide an instant body-sensing micro-physiological monitoring system, and to have a series-connected electrophysiological detecting cavity to fully protect the electrophysiological detecting processing component and circuit, and to solve the shortcomings of the prior art, and A series of fixed electrophysiological detection chambers can eliminate many noises and disturbances, achieve long-term carrying, correct low interference and complete and timely recording of cardiac physiological ECG information and immediate position changes, and by position and signal Physiological ECG information is automatically coordinated, which can improve the sensitivity of physiological learning and the accuracy of identification specificity.

The technical means adopted by the present invention for solving the problems of the prior art provides an instant body state sensing micro-physiological monitoring system with a serially connected electrophysiological detecting cavity, which comprises a micro-position instantaneous sensing physiological monitoring module and a composite The conversion display module; wherein the micro-position instantaneous sensing physiological monitoring module comprises a cardiac physiological ECG sensing unit, comprising a plurality of cardiac physiological ECG sensing points for sensing and receiving a cardiac physiological ECG of a user a plurality of serially connected electrophysiological detection cavities, the series-connected electrophysiological detection cavities comprising a cavity for receiving the cardiac physiological electrocardiographic signal sensing unit and a conductive connection channel, the cardiac physiology The electrical signal sensing unit uses a plurality of the cardiac physiological ECG sensing points to sense and receive the complete cardiac physiological ECG of the user, and the cardiac physiological ECG sensing points are individually assigned to the serially fixed device. Electrophysiological detection of the cavity of the cavity, and through the conductive connection channel, the cardiac electrocardiogram signal of each heart Electrical connection to reduce noise interference; one-bit instant signal sensing unit to sense and receive the user's body position real-time signal; integrated instantaneous signal and cardiac physiological ECG information composite calculation unit for the use The heart physiological ECG signal integrates the body position real-time signal, automatically cooperates with the heart, and after the composite signal processing and calculation of the cardiac physiological ECG signal and the body position real-time signal, the heart physiology of the user after the position-based signal correction is obtained. ECG information; and get the instant record of the user The whole heart physiological ECG message and the immediate position change; a transmission unit is electrically connected to the main body body position instantaneous signal and the cardiac physiological ECG information composite calculation unit for using the user's cardiac physiological ECG message and the immediate position a data storage and tracking unit for storing a complete cardiac physiological ECG message and an immediate position change data for the user; and a power supply unit; and the composite conversion display module for information link The micro-position instant sensing physiological monitoring module is activated by each other, and comprises a composite information screening conversion unit for filtering the complete cardiac physiological ECG message and the immediate body position change data into an instant public physiological information display data. And a composite display reminding unit for alerting the user to the instant public physiological information display data in a manner selected from the group consisting of a number, a chart, a cartoon, and a combination thereof.

The authoring system can sense, record and wirelessly transmit the cardiac electrocardiogram information and the instantaneous position change data of the user, and the user can carry it on the body and instantly monitor the user's cardiac physiological ECG information and the instantaneous position change, for example, use. The heartbeat, pulse, ECG curve and positional prone posture can be used for remote care or immediate medical monitoring.

Through the integration of technologies such as micro-wireless physiological signal sensors, synchronous recording and recording technology, ECG signal sensing technology and analysis algorithms, the use of micro-wireless and long-term signals can be realized. The correct portable cardiac physiological ECG message and instant position change message collection system can be used in general healthy people, stressful groups, doubt or worry. Dirty patients, the general elderly, existing diseases such as heart disease or circulatory diseases, as general health care, disease diagnosis reference, serious disease monitoring and medication treatment. It can be extended to use in cardiology, emergency, etc., telemedicine and even home care. In addition, the creation can be wirelessly transmitted and recorded on the micro SD card according to the customization requirements. The mini USB connector can also be used to charge or read the stored data. And the wireless transmission design can be used to confirm the effectiveness of the electrode installation to confirm whether it is appropriate, and can immediately receive the user's ECG data for dynamic evaluation.

10‧‧‧Instantaneous body-sensing micro-physiological monitoring system with serially connected electrophysiological detection chamber

100‧‧‧Digital Position Instant Sensing Physiological Monitoring Module

110‧‧‧ Cardiac Physiological ECG Signal Sensing Unit

115‧‧‧ Cardiac Physiological ECG Signal Sensing Point

117‧‧‧ skin contact layer

120‧‧‧Sequential fixed electrophysiological detection chamber

125‧‧‧ cavity

127‧‧‧Electrically connected channel

130‧‧‧ Position Instant Signal Sensing Unit

140‧‧‧ Positional Instant Signal and Cardiac Physiological ECG Information Complex Calculation Unit

150‧‧‧Transportation unit

160‧‧‧Data Storage Tracking Unit

170‧‧‧Power supply unit

200‧‧‧Composite conversion display module

400‧‧‧Separator

500‧‧‧Medical or Care Information System

500’‧‧‧ Monitoring instruments

1000‧‧‧Users

Figure 1 is a schematic diagram of an instant body-sensing micro-physiological monitoring system with a serially connected electrophysiological detection chamber.

In the second figure, the author has a schematic diagram of the application of the instant body state sensing micro-physiological monitoring system with a serially connected electrophysiological detection cavity.

Figure 3, a schematic diagram of a first dual-chamber cube structure with a series of fixed electrophysiological detection cavities, (B) a schematic diagram of a second dual-chamber cube structure, and (C) a double cylindrical cavity structure Example diagram, (D) Schematic diagram of the reference cavity structure, (E) Schematic diagram of the cylindrical cavity structure and (F) Schematic diagram of the cylindrical cavity structure.

The instant body-sensing micro-physiological monitoring system of the present invention having a serially connected electrophysiological detecting chamber can be fully understood through the following description of the embodiments, so that those skilled in the art can complete the method, but the implementation of the present invention It is not limited by the following embodiments. Other embodiments may be derived from the spirit of the embodiments disclosed herein, and such embodiments are within the scope of the present invention.

First embodiment

The first embodiment of the present invention is an instant body-sensing micro-physiological monitoring system with a serially connected electrophysiological detecting cavity. As shown in FIG. 1 and FIG. 2, the present invention mainly comprises a micro-position instantaneous sensing physiological monitoring module 100. And a composite conversion display module 200, wherein the micro-position instantaneous sensing physiological monitoring module 100 comprises a cardiac physiological ECG sensing unit 110, a plurality of serially connected electrophysiological detecting cavities 120, and a body position instant signal sensing The unit 130, a body position instant signal and cardiac physiological ECG information complex calculation unit 140, a transmission unit 150, a data storage tracking unit 160 and a power supply unit 170.

The serially-connected electrophysiological detecting chamber 120 includes a cavity 125 for accommodating the cardiac physiological electrocardiographic signal sensing unit 110 and a conductive connecting channel 127, wherein the cardiac physiological electrocardiographic sensing unit 110 utilizes a plurality of cardiac physiology The ECG signal sensing point 115 receives a complete cardiac physiological ECG signal of the user, and the cardiac physiological ECG sensing point is individually distributed in the cavity 125 of the serially connected electrophysiological detecting cavity, and is transmitted through The conductive connecting channel 127 electrically connects the cardiac physiological ECG sensing points 115 to reduce noise interference. Preferably, the conductive connecting channel 127 must have a certain mechanical strength and ductility to maintain the cavity 125. The flexibility between the adjustments is due to clinical needs during use.

The micro-position instantaneous sensing physiological monitoring module 100 is configured to separately distribute the cardiac physiological electrocardiographic sensing unit 110 installed in the cavity 125 of the plurality of serially connected electrophysiological detecting chambers. Unit 130, one-bit instant signal and heart physiology The electrical information combination calculation unit 140, a transmission unit 150, a data storage and tracking unit 160, and a power supply unit 170 can be installed in different spatial positions of the cavity 125 according to customization requirements, and the same through the cavity. 125 can protect these units from external stress interference and damage, and can be electrically connected through the conductive connection channel 175 between the cavities 125. Optionally, a spacer film 400 may be mounted or glued or encapsulated on the outside of the serially connected electrophysiological detection chamber. The cavity 125 portion and the conductive connection channel 175 may be made of different isolation materials, such as selected from silicone rubber. , polyurea, polypropylene, polyethylene, polyvinyl fluoride, rubber, polyamide, polyimine, polymethyl methacrylate, epoxy resin, poly-fat, polyvinyl chloride (PVC), poly The group consisting of vinyl alcohol (PVA), polyoxyalkylene and its foam, but the insulating material of the conductive connecting channel 175 still needs to maintain a certain ductility to maintain the flexibility between the use of the cavity. That is, the cavity 125 of the serially connected electrophysiological detection cavity is further coated in an integrally formed soft polymer material, and the conductive connection channel 175 is covered by another soft material. The proposed tandem fixed electrophysiological detection cavity refers to a rigid package cavity that is constrained in a fixed direction and connected in series by a ductile conductive connection channel 175.

The cardiac physiological ECG sensing unit of the present invention can be used to receive cardiac physiological ECG signals such as heartbeat, body temperature, blood pressure, electrocardiogram, heart rate, blood oxygen concentration, etc., specifically, in order to receive heart physiological ECG signals completely and effectively. In the implementation method, at least one measurement electrode and one reference electrode must be included. As shown in FIG. 1 , in order to increase the compatibility with the physiological signal measurement of the commercially available medical system, especially the ECG signal measurement, The cardiac physiological ECG sensing unit of the present invention may include a sensing electrode patch of a conventional medical general ECG signal measurement specification and a conductive unit connected to other components, and the conductive unit may select a metal pad, a copper foil, a conductive carbon skin, a gold wire, a silver wire, a conductive polymer, a coating or a coating a group of conductive materials of guanamine or polyimine and a combination thereof, the purpose of which is to allow the sensing electrode patch to be electrically connected to other components, so that the sensing signal can be smoothly transmitted and can be loaded It is disposed in the conductive connecting channel 175 and the cavity 125 for protection. In a specific example, the sensing electrode patch of the present invention comprises a cardiac physiological ECG sensing point 115 and a skin contact layer 117, wherein the cardiac physiological ECG sensing point is selected to be free from a sticky conductive patch. Rubber conductive sheets, aluminum conductive sheets, and combinations of groups. The skin contact layer 117 can improve the conductive effect of the surface when in contact with the skin layer, thereby increasing the strength and quality of the physiological electrical signal measurement, and selecting a free conductive adhesive, a conductive paste, and a combined group.

The body position instant signal sensing unit of the present invention is used for sensing and receiving the user's body position instant signal, in particular, for sensing the acceleration and direction change of the user's main body position.

The creation of the body position real-time signal and cardiac physiological ECG information composite calculation unit is used to integrate the user's cardiac physiological ECG signal into the body position real-time signal, automatically cooperate with the heart, and pass the cardiac physiological ECG signal and position instant. After processing and calculating the composite signal parameters of the signal, the cardiac physiological ECG information of the user who is correct for the positional signal correction is obtained; and the complete cardiac physiological ECG information and the instantaneous position change of the user can be obtained and instantly recorded.

The transmission unit of the present invention comprises a ZigBee module or an RF module, and is electrically connected to the main body body position instant signal and the cardiac physiological ECG information compound calculation unit, so that the user's heart can be transmitted through the transmission unit Physiological ECG messages and real-time position change data data transmission and transmission output.

The data storage tracking unit of the creation is used to store and track the complete cardiac physiological ECG information and the instantaneous position change data of the user.

The power supply unit of this creation, such as a mercury battery, lithium battery, dry battery, solar power The pool or other external power supply is electrically connected to other units.

The composite conversion display module of the present invention comprises a composite information filtering conversion unit for filtering the complete cardiac physiological ECG message and the immediate body position change data into an instant public physiological information display data; The composite display reminding unit is configured to remind the user that the instantly displayable physiological message display data is selected from the group consisting of a number, a chart, a cartoon, and a combination thereof, and the composite conversion display module can be a composite program or a software. Or a module or component, which may also be a dedicated device including a composite information filtering conversion unit and a composite display reminding unit, or may be integrated into the interface of the medical or care information system 500, or generally compatible with the mobile phone. Composite program or software. For example, the complete cardiac physiological ECG message and the real-time position change data are converted into a signal carrier and transmitted to a radio frequency (RF) receiving device installed in the user's home, and the radio frequency (RF) receiving device transmits the signal carrier via the signal carrier. The antenna is sent to the carrier receiver disposed in the medical institution, and the signal carrier can be converted into digital data through the carrier receiver on the monitoring device, and the display is outputted by image; or the radio frequency (RF) receiving device The signal carrier is converted into a general digital signal and transmitted to the monitoring device installed in the medical institution via the Ethernet network, and the image is output and displayed to achieve the remote monitoring effect. The composite display reminding unit may be a monitoring device of the above-mentioned medical institution or a portable device or a mobile phone or a mobile information display, and includes an instant monitoring interface, an instant recording interface, an offline browsing interface, an instant display interface and a warning reminding interface. The authoring system can sense, record and wirelessly transmit the cardiac electrocardiogram information and the instantaneous position change data of the user, and the user can carry it on the body and instantly monitor the user's cardiac physiological ECG information and the instantaneous position change, for example, use. The heartbeat, pulse, ECG curve and positional prone posture can be used for remote care or immediate medical monitoring.

When the instant body-sensing micro-physiological monitoring system of the present invention starts to be activated, it means that the micro-position instantaneous sensing physiological monitoring module 100 starts to act, and the body position instantaneous signal sensing unit 130 and the cardiac physiological ECG sensing unit 110 are combined and analyzed. The cardiac physiological ECG sensing unit 110 can specifically obtain user physiological information such as an electrocardiogram using the electrocardiographic sensing element. If the combination of the body position real-time signal sensing unit 130 and the cardiac physiological ECG signal sensing unit 110 detects no abnormality, the system keeps detecting no other actions, and when the cardiac physiological ECG sensing unit 110 detects an abnormality, The alarm will be automatically sent through an alarm unit. When the body position signal sensing unit 130 detects an abnormality, the body position instant signal sensing unit 13012 further confirms whether the cardiac physiological ECG sensing unit 110 detects normal or not. The ECG signal sensing unit 110 detects that it is not normal, and uses the composite display display reminder unit to issue an alarm through the composite information filtering conversion unit conversion information. If the heart physiological signal sensing unit 110 detects that the heart physiological signal sensing unit 110 is normal, the body position real time sensing unit 130 automatically transmits a signal to enable the data storage tracking unit 160 to start, and the data storage tracking unit 160 is connected to the cardiac physiological ECG sensing unit. 110 performs further monitoring and tracking for a certain period of time (for example, in units of ten seconds) to reduce the false positive rate, and automatically stores the physiological information sensed by the cardiac physiological ECG sensing unit 110 during the time. During the time when the user's physiological information is abnormal, the data storage and tracking unit 160 automatically causes the composite display reminder unit to issue an alarm, and if the physiological information of the user is normal during the time, the creation system automatically resets, and the creation is automatically reset. The data storage tracking unit 160 automatically transmits the physiological information stored at the time to the medical or care information system 500 and the monitoring instrument 500' by the transmission unit 150.

Therefore, please refer to all the figures. When using this creation, compared with the conventional technology, the following advantages exist:

1. Fully protect the electrophysiological detection processing components and circuits by serially connecting the electrophysiological detection cavity, eliminating many noises and interferences, achieving long-term carrying, correct low interference and complete and immediate recording of cardiac physiological ECG messages and instant The system of position change makes this creation practical and progressive to improve detection accuracy.

Second, by the automatic matching of the body position instant signal and the cardiac physiological ECG information, the identification sensitivity and the identification specificity can be improved to avoid false positives or miss the abnormal situation, so that the creation can achieve practical improvement of detection accuracy.

Third, by the automatic operation of the body position instant signal and the cardiac physiological ECG information, the creation of any ethnic group (such as the elderly with disabilities, the inconvenience of the limbs, etc.) can accurately detect the practical convenience.

Fourth, by the complex calculus of body position instant signal and cardiac physiological ECG information, eliminating the need for manual interpretation of physiological information, this creation achieves practical convenience of saving manpower.

The automatic synchronization of the positional instant signal and the cardiac physiological ECG information calculation unit automatically reduces the false positives caused by human factors, which makes the creation achieve the practical progress of automatic detection and prevention of false alarms.

Overall, the creation can sense, record and wirelessly transmit the user's ECG data and obtain its complete ECG message. The user can carry it on the body and monitor the user's ECG in real time. It can also be used for remote distance. Medical use. In the future, in addition to cardiac monitoring, it can be converted into a single-lead, three-lead, eight-lead... simple ECG, and the current external transmission can be developed as a dedicated RF protocol. Changed to standard Bluetooth, WiFi, WiMAX, etc., convenient for the telemedicine industry. Its lightweight design is ideal for action care. In the function expansion, other functions such as a three-axis accelerometer and a body temperature measurement IC detection pin can be reserved. In the absence When design changes, you can also change the hardware components and convert them into multi-channel brainwaves or multi-channel electromyographs.

The above description is only a preferred embodiment of the present invention. When it is not possible to limit the scope of the creation of the present invention, the equivalent changes and modifications made by the applicant in accordance with the scope of the patent application and the contents of the new manual should remain This creative patent covers the scope. Looking at the above, the structural features of this creation do have practical value and progressiveness. In terms of its overall structure, Cheng has already complied with the statutory requirements of the Patent Law and has filed a new type of patent application according to law.

10‧‧‧Instantaneous body-sensing micro-physiological monitoring system with serially connected electrophysiological detection chamber

100‧‧‧Digital Position Instant Sensing Physiological Monitoring Module

200‧‧‧Composite conversion display module

110‧‧‧ Cardiac Physiological ECG Signal Sensing Unit

115‧‧‧ Cardiac Physiological ECG Signal Sensing Point

117‧‧‧ skin contact layer

120‧‧‧Sequential fixed electrophysiological detection chamber

125‧‧‧ cavity

127‧‧‧Electrically connected channel

130‧‧‧ Position Instant Signal Sensing Unit

140‧‧‧ Positional Instant Signal and Cardiac Physiological ECG Information Complex Calculation Unit

150‧‧‧Transportation unit

160‧‧‧Data Storage Tracking Unit

170‧‧‧Power supply unit

400‧‧‧Separator

Claims (7)

An instant body-sensing micro-physiological monitoring system with a serially connected electrophysiological detecting cavity, comprising a micro-position instantaneous sensing physiological monitoring module and a composite conversion display module; wherein the micro-position instantaneous sensing physiological monitoring module The heart physiological electrocardiographic signal sensing unit includes a plurality of cardiac physiological ECG sensing points for sensing and receiving a cardiac physiological heart signal of a user; and a plurality of serially connected electrophysiological detecting chambers The serially-connected electrophysiological detecting chamber comprises a cavity for accommodating the cardiac physiological electrocardiographic signal sensing unit and a conductive connecting channel, wherein the cardiac physiological electrocardiographic sensing unit utilizes a plurality of the cardiac physiology The electrical signal sensing point senses receiving the complete cardiac physiological ECG signal of the user, and the cardiac physiological ECG sensing point is individually distributed in the cavity of the serially connected electrophysiological detecting cavity, and is transmitted through The conductive connecting channel electrically connects each cardiac physiological heart signal sensing point, so that the signal reduces noise interference; The instant signal sensing unit is configured to sense and receive the body position instant signal; the integrated instant signal and the cardiac physiological ECG information complex calculation unit are used to integrate the user's cardiac physiological ECG signal into the body position instant signal. Automatically cooperate with the heart, and after the composite signal processing and calculation of the cardiac physiological ECG signal and the body position real-time signal, the cardiac physiological ECG information of the user after the positional signal-assisted correction is obtained; and the user is recorded and recorded immediately. Finish The whole heart physiological ECG message and the immediate position change; a transmission unit is electrically connected to the main body body position instantaneous signal and the cardiac physiological ECG information composite calculation unit for using the user's cardiac physiological ECG message and the immediate position a data storage and tracking unit for storing a complete cardiac physiological ECG message and an immediate position change data for the user; and a power supply unit; and the composite conversion display module for information link In the micro-position instant sensing physiological monitoring module and actuating each other, the utility model comprises a composite information filtering conversion unit of information link, which is used for screening the complete cardiac physiological ECG information and the real-time position change data into an instant publicity. The physiological message display data; and a composite display reminding unit for alerting the user to the instant public physiological information display data in a manner selected from the group consisting of a number, a chart, a cartoon, and a combination thereof. The instant body-sensing micro-physiological monitoring system according to the first aspect of the patent application, wherein the conductive connecting channel has a certain mechanical strength and ductility, and maintains the flexibility of the distance between the cavities due to clinical requirements during use. The instant body-sensing micro-physiological monitoring system according to claim 1, wherein the composite conversion display module is selected from a composite program or software or module or component, and a composite information filtering conversion unit is included. A composite display reminder unit dedicated device, an interface integrated into the medical or care information system, a composite program or software compatible with the mobile phone And the group formed by its combination. The instant body-sensing micro-physiological monitoring system according to the first aspect of the patent application, wherein the cardiac physiological electrocardiographic signal sensing unit further comprises an integrated temperature sensing component, a heartbeat sensing component, a body temperature, a blood pressure sensing component, and a blood oxygen concentration. A group of sensing elements and combinations thereof. The instant body sensing micro-physiological monitoring system of claim 1, wherein the body position sensing unit further comprises an activity sensing module for sensing the three-axis acceleration signal of the user and transmitting The activity amount data of the user is obtained after the combined processing and calculation of the body position instant signal. The instant body-sensing micro-physiological monitoring system of claim 1, wherein the transmission unit is selected from the group consisting of a wireless transmission device, a wired transmission device, and a combination thereof. The instant body sensing micro-physiological monitoring system according to the first aspect of the patent application, the composite display reminding unit is configured to display the cardiac physiological ECG information and the instantaneous position change of the user, including the heartbeat and pulse of the user. , ECG curve and posture posture, and for immediate monitoring, used for immediate remote care or medical monitoring in wards, care centers, ambulances, emergency sites or home physiological monitoring.