KR20100005690A - Autonomic nervous system analysis device using belt with potential difference induction surface electrode - Google Patents

Abstract

PURPOSE: An autonomic nervous system analyzing device is provided to measure a state of an autonomic nervous system by measuring an electrocardiogram value through a belt type sensor. CONSTITUTION: A belt(100) is worn in the breast of a patient. An electrocardiogram sensor(110) is arranged on an inner surface of the belt. The electrocardiogram sensor senses the electrocardiogram value in the contraction of the heart. The electrocardiogram sensor includes a surface electrode(111) and an active electrode(112). A surface electrode is not contacted with the skin of the patient. An active electrode senses the potential sensed by the surface electrode. The controller compares the autonomic nervous system data with the maximum value of the electrocardiogram value sensed by the electrocardiogram sensor.

Description

Autonomic Nervous System Analysis Device Using Belt with Potential Induction Surface Electrode

The present invention relates to an autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode, it is possible to calculate the biometric data using a belt-type sensor, the inconvenience of the biometric data obtained in the conventional electrocardiogram measuring apparatus attached to the skin The present invention relates to an autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode attached to it.

In general, the pulse wave (Mechanocardiogram) refers to the recording of the heartbeat, carotid artery, jugular vein wave, such as the heartbeat of the chest wall and large blood vessels according to the heartbeat. Pulse waves, like heart sounds, can convert sound energy into electrical energy to record waveforms and record the mechanical motion of the heart.

The types of pulse wave include the pressure pulse wave and the volume pulse wave, and the pressure pulse wave is a side (pressure) pulse wave measured from the outside, and is divided into pure pressure pulse wave (vein blood) and side pulse wave (non-vascular). In addition, the volume (branch line, guideline) pulse wave is a record of the volumetric fluctuations caused by internal pressure fluctuations of the artery. It is about 1-2 seconds.

1 is a schematic conceptual diagram of a conventional autonomic nervous system analysis device for detecting a pulse wave, the conventional autonomic nervous system analysis device is a light emitting unit 1 for irradiating infrared rays to the finger flowing capillaries and the light emitting unit (1) The pulse is measured by attaching an optical sensor composed of a light receiving unit (2) that receives infrared rays irradiated from) to measure blood changes in capillaries due to heart contraction. Measure the state of the autonomic nervous system.

However, the pulse wave measured in the conventional autonomic nervous system analysis device using the optical sensor as described above has a simple advantage compared to the cumbersome ECG to be attached to the skin, as shown in Figure 2, the wavelength compared to the ECG waveform There was a concern that inferior analysis resulted in inaccurate analysis of autonomic nervous system because the error occurred more slowly than ECG when measuring the maximum value of vein and next vein.

In addition, the autonomic nervous system analysis device using a conventional optical sensor is measured in a limited space and a limited time, such as a hospital or home, it is impossible to analyze the autonomic nervous state during daily life or activity, so the reliability of the measured autonomic nervous system data value is lowered. There was this.

The present invention has been made to solve the above-mentioned problems, an object of the present invention is to measure the belt-like sensor excellent in wearability and mobility and the ECG value induced by the belt-type sensor to change the autonomic nervous state of the patient on a 24-hour basis. It is to provide an autonomic nervous system analysis device using a belt with a potential difference induction surface electrode that can accurately measure the trend.

In addition, there is a control unit for comparing the pre-stored autonomic neuron state data value and the measured autonomic neuron state data value as described above, and stores for each time is equipped with a potential difference induction surface electrode that can accurately diagnose the autonomic nerve state of the patient It is to provide an autonomic nervous system analysis device using a belt.

In order to solve the above problems, the autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode according to the present invention is worn on the chest of the patient, the belt worn on the upper surface; and the belt 100 ECG sensing unit which is installed on the surface electrode 111 which is not in contact with the skin of the patient and the active electrode 112 for detecting the potential difference detected by the surface electrode 111 to induce the ECG value generated during heart contraction (110); and compares and analyzes the maximum value of the electrocardiogram value derived from the electrocardiogram sensor (110) with pre-stored autonomic nerve state data values, and stores the values according to time. And a controller 200 including 220.

In addition, the amplification unit 120 provided in the belt 100 to amplify the ECG value induced by the ECG detection unit 110; and the noise of the induced ECG value amplified by the amplification unit 120 Filtering unit 130 to remove; And an A / D converter 140 for converting the induction electrocardiogram value from which the noise is removed by the filtering unit 130 into a digital value.

In addition, the display unit 230 for displaying the value stored in the storage unit 220; and a printing unit 240 for printing the value stored in the storage unit 220; characterized in that it further comprises.

According to the present invention as described above, the belt-type sensor excellent in wearability and mobility and the electrocardiogram value induced by the belt-type sensor can be measured to accurately measure the change in the autonomic nervous state of the patient on a 24-hour basis. There is this.

In addition, as compared with the previously stored autonomic neurological state data value and the measured autonomic neurological state data value as described above is provided with a control unit for storing each time has the advantage that can accurately diagnose the autonomic nervous state of the patient.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

3 is a schematic configuration diagram of an autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode according to a preferred embodiment of the present invention, Figure 4 is a belt with a potential difference induction surface electrode attached according to a preferred embodiment of the present invention A conceptual diagram of a state of measuring autonomic nervous system data values from a patient using an autonomic nervous system analyzer using FIG. 5 is a graph showing waveforms of electrocardiogram values and non-contact electrocardiogram values measured by being attached to the skin.

An autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode according to the present invention includes a belt 100, an electrocardiogram detecting unit 110 and a control unit 200, the surface electrode 111, Active electrode 112, amplifying unit 120, filtering unit 130, AD converter 140, timer 210, storage unit 220, display unit 230, printing unit 240 and the main body 300 ) May be further included.

First, the ECG detecting unit 110 installed on the belt 100 and the belt 100 will be described.

The belt 100 is a member to be worn on the chest of the patient, and more particularly, the belt 100 is worn on the top of the patient while the top is worn. Such a belt 100 may be adjusted in length according to the chest size of the patient. desirable.

In addition, as shown in FIG. 3, the belt 100 is provided with an electrocardiogram detecting unit 110 at a place where the patient is in contact with the upper garment, that is, an inner circumferential surface thereof, and the electrocardiogram detecting unit 110 is illustrated in FIG. 3. As shown in the drawing, the surface electrode 111 and the active electrode 112 are included.

The surface electrode 111 and the active electrode 112 as described above induce an electrocardiogram value by the alternating current method, and as shown in FIG. 4, the belt 100 may be worn on the top 10. Provide convenience.

In more detail, as described above, the surface electrode 111 and the active electrode 112 for inducing an electrocardiogram in a non-contact manner with the skin of the patient may change the biopotential generated during heart contraction with the surface electrode 111. The change of the potential difference is induced by using the electrode 112.

In addition, the QRS value of the electrocardiogram waveform (CC-ECG: Capacitance Coupled-Electrocardiogram) induced using the present invention is a contact electrocardiogram measurement for measuring an electrocardiogram by attaching a surface electrode to a conventional skin as shown in FIG. 5. You get a waveform that is almost similar to the QRS value of the electrocardiogram (ECG: Electrocardiogram) measured by the device, of which the largest and sharpest R value is measured identically.

Accordingly, induction ECG detected using ECG and induced potential difference, in particular, has the same QRS point (see FIG. 5) that causes cardiac contraction, so that the same result can be obtained when measuring the RR interval, which is essential for the analysis of autonomic nerve state. For reference, when the displacement of the RR interval is large, the autonomic nervous state of the patient may be predicted to be active, and vice versa, the autonomic nervous state of the patient may be predicted to be inactive.

In other words, the present invention has the same performance as the direct measurement of the QRS point by directly attaching the surface electrode, so that it can be easily worn on the top of the garment, which is convenient and can reduce the risk of infection and accurately measure the ECG value.

On the other hand, the belt 100, the amplification unit 120 for amplifying the measured ECG as described above, the filtering unit 130 for removing noise mixed in the amplified value as described above, and the noise is removed as described above An A / D converter 140 may be further included to convert the converted value into a digital signal.

Next, the control unit 200 will be described.

The controller 200 compares and analyzes the induction electrocardiogram converted into a digital signal through the above-described AD converter 140 with the data value of the pre-stored autonomic nerve state and stores the compared and analyzed value according to time.

In addition, it is preferable that the display unit 230 or the printing unit 240 to allow the patient or doctor to visually check the stored value as described above may be further included.

Finally, with reference to Figure 6 will be described the flow of measuring the autonomic nervous system using an autonomic nervous system analyzer using a belt with a potential difference induction surface electrode according to an embodiment of the present invention.

First, the patient wears the top 10 and then wears the belt 100 on the top. The surface electrode 111 is located near the heart so that the autonomic nervous system data value can be measured based on the accurate guided electrocardiogram value. ) And the active electrode 112 are positioned.

Wearing as described above and the patient to turn on the power switch (not shown) (On) to activate the surface electrode 111 and the active electrode 112, and then the body 300 as shown in Figure 3 in the waist region To wear.

When the main body 300 is worn as described above, the induced electrocardiogram is measured by the surface electrode 111 and the active electrode 112, and the induced electrocardiogram is amplified by the same waveform as the electrocardiogram through the amplifier.

The induced electrocardiogram amplified as described above is removed from the noise through the filtering unit 130 and then converted into a digital signal via the AD converter 140.

The induced electrocardiogram converted into a digital signal is transmitted to the control unit 200 installed inside the main body 300 by wire or wirelessly, and compares and analyzes the autonomic nervous state data value stored in the control unit 200 and the measured induced electrocardiogram value. do.

The main body 300 may further include a storage unit 220 having a timer 210 connected to the control unit 200 to store the comparison / analysis values for each time zone. Since the timer 210 and the storage unit 220 are provided as described above, the doctor or the patient can accurately know the autonomic neural state and the change in autonomic neural state for each period or week for 24 hours, thereby allowing the doctor to diagnose the change. It provides convenience for accurate diagnosis.

In addition, the outside of the main body 300 may include a display unit 230 for displaying a value stored in the storage unit 220 as described above, if the display unit 230 is included in this way, the information required by the doctor or patient In other words, it will be able to accurately determine the ECG changed by time or period.

On the other hand, the main body 300 may include a printing unit 240 for printing a value stored in the storage unit.

The best embodiments have been disclosed in the drawings and the specification. Herein, specific terms have been used, but they are used only for the purpose of illustrating the present invention and are not intended to limit the scope of the present invention as defined in the claims or the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a schematic configuration diagram of an autonomic nervous system device for detecting biometric data using a conventional optical sensor,

2 is a graph comparing the electrocardiogram and biometric data detected using a conventional optical sensor,

3 is a schematic configuration diagram of an autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode according to an embodiment of the present invention,

4 is a conceptual diagram of a state in which autonomic nervous system data values are measured from a patient by using an autonomic nervous system analyzer using a belt with a potential difference inducing surface electrode according to a preferred embodiment of the present invention;

Figure 5 is a graph showing the waveform of the electrocardiogram values and non-contact induced ECG values measured by attaching to the skin,

6 is a flowchart of measuring autonomic nervous system using an autonomic nervous system analysis apparatus using a belt with a potential difference inducing surface electrode according to a preferred embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100-belt 110-ECG

111-surface electrode 112-active electrode

120-amplifier 130-filter

140-ed converter

200-controller 210-timer

220-storage 230-display

240-printer

300-body

Claims (3)

Is worn on the chest of the patient, the belt 100 is worn over the top; And The surface electrode 111 which is installed on the belt 100 and is in contact with the skin of the patient and the active electrode 112 which detects the potential difference detected by the surface electrode 111 is provided to induce an electrocardiogram value generated during heart contraction. ECG detection unit 110; and The control unit includes a timer 210 and a storage unit 220 to compare and analyze the maximum value of the electrocardiogram value induced by the ECG 110 and the pre-stored autonomic nerve state data value and store the value for each time. Autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode is attached to. The method according to claim 1, An amplification unit 120 provided in the belt 100 to amplify the electrocardiogram value induced by the electrocardiogram detecting unit 110; and A filtering unit 130 for removing noise of the induced electrocardiogram value amplified by the amplifier 120; And A / D converter (140) for converting the induction electrocardiogram value from which the noise is removed by the filtering unit (130) to a digital value; a belt with a potential difference induction surface electrode further comprises a; Autonomic nervous system analysis device used. The method according to claim 1, A display unit 230 for displaying a value stored in the storage unit 220; and Autonomic nervous system analysis apparatus using a belt with a potential difference induction surface electrode, characterized in that it further comprises a; printing unit 240 for printing a value stored in the storage unit 220.

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